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HomeMy WebLinkAboutWQ0045239_Application_20240320Initial Review Reviewer nathaniel.thorn burg Is this submittal an application? (Excluding additional information.) * Yes No Permit Number (IR) * WQ0045239 Applicant/Permittee East Coast Investors, LLC Applicant/Permittee Address 3129 Springbank Lane, Suite 201 Charlotte, NC 28226 Is the owner in BIMS? Yes No Is the facility in BIMS? Yes No Owner Type Facility Name County Fee Category Single -Family Residence Is this a complete application?* Yes No Signature Authority Signature Authority Title Signature Authority Email Document Type (if non -application) Email Notifications Organization The Peninsula at Hyco Lake - Lots 62 and 63 SFR Person Does this need review by the hydrogeologist? * Yes No Regional Office CO Reviewer Admin Reviewer Fee Amount Complete App Date 03/20/2024 $60 Below list any additional email address that need notification about a new project. Email Address Comments to be added to email notfication Comments for Admin Comments for RO Comments for Reviewer Comments for Applicant Submittal Form Project Contact Information Please provide information on the person to be contacted by NDB Staff regarding electronic submittal, confirmation of receipt, and other correspondence. Name* David Barcal Email Address* david.barcal@macconnellandassoc.com Project Information ......................... Application/Document Type* New (Fee Required) Modification - Major (Fee Required) Renewal with Major Modification (Fee Required) Annual Report Additional Information Other Phone Number* 9194671239 Modification - Minor Renewal GW-59, NDMR, NDMLR, NDAR-1, N DAR-2 Residual Annual Report Change of Ownership We no longer accept these monitoring reports through this portal. Please click on the link below and it will take you to the correct form. https://edoes.deq.nc.gov/Forms/NonDischarge_Monitoring_Report Permit Type:* Wastewater Irrigation High -Rate Infiltration Other Wastewater Reclaimed Water Closed -Loop Recycle Residuals Single -Family Residence Wastewater Other Irrigation Applicant/Permittee* East Coast Investors, LLC Applicant/Permittee Address* 3129 Springbank Lane, Suite 201 Charlotte, NC 28226 Facility Name* The Peninsula at Hyco Lake - Lots 62 and 63 SFR Please provide comments/notes on your current submittal below. At this time, paper copies are no longer required. If you have any questions about what is required, please contact Nathaniel Thornburg at nathaniel.thornburg@ncdenr.gov. Please attach all information required or requested for this submittal to be reviewed here. (Application Form, Engineering Plans, Specifications, Calculations, Etc.) C08662.00 - Lot 62 & 63 Submittal Package.pdf 42.1 MB Upload only 1 PDF document (less than 250 MB). Multiple documents must be combined into one PDF file unless file is larger than upload limit. * By checking this box, I acknowledge that I understand the application will not be accepted for pre -review until the fee (if required) has been received by the Non -Discharge Branch. Application fees must be submitted by check or money order and made payable to the North Carolina Department of Environmental Quality (NCDEQ). I also confirm that the uploaded document is a single PDF with all parts of the application in correct order (as specified by the application). Mail payment to: NCDEQ — Division of Water Resources Attn: Non -Discharge Branch 1617 Mail Service Center Raleigh, NC 27699-1617 Signature Submission Date 3/8/2024 East Coast Investors, LLC (Sunbelt Land Management) Lot 62 & 63 Peninsula at Hyco Lake Person County, North Carolina Surface Drip Irrigation System with TS-II Pretreatment Application Package for Single Family Residence Project No.: C08662.00 Submittal Date: November 30, 2023 SE 051201 Prepared By: MacConnell & Associates, P.C. 501 Cascade Pointe Lane, Suite 103 P.O. Box 129 Cary, NC 27513 Morrisville, NC 27560 Phone: (919) 467-1239 Fax: (919) 319-6510 Table of Contents • Cover Letter • Form: SFRW WIS 06-16 • Project Narrative • Property Ownership Documentation • Soils Evaluation • Engineering Plans • Specifications • Engineering Calculations • Equipment • Site Map • Operation & Maintenance Plan • Operation & Maintenance Agreement • County Health Department Denial Letter • Floodway Regulation Compliance • Threatened or Endangered Aquatic Species Documentation • Flow Reduction W East Coast Investors, LLC Lot 62 & 63 Peninsula at Hyco Lake Person County, North Carolina E �= = a 051201 %,,tiR�sroPN�.• Cover Letter MacConnell & Associates, P.C. 501 Cascade Pointe Lane, Suite 103 Cary, North Carolina 27513 P.O. Box 129 Morrisville, North Carolina 27560 Phone: (919) 467-1239 Fax: (919) 319-6510 P.O. Box 129 501 Cascade Pointe Lane Morrisville, NC 27560 Suite 103 \_ Cary, NC 27513 (919) 467-1239 www.macconnellandassoc.com MacCONNELL & Associates, P.C. "Engineering Today For TOI1101TOW'S Future" November 30, 2023 To: Nathaniel Thornburg NC Division of Water Resources Division of Water Resources- Non -Discharge Branch Attn: Nathaniel Thornburg- 9" Floor, Office #942X. 512 N. Salisbury St. Raleigh, NC 27604 Telephone: (919) 707-3653 To Mr. Thornburg: This letter accompanies a New Single -Family Residence Wastewater Irrigation System Application for Lot 62 & 63 of Peninsula at Hyco Lake in Person County. Within the application package you will find the following information: project narrative, form: SFRWWIS 06-16, flow reduction letter, narrative, property ownership documentation, soil evaluation, engineering plans, specifications, engineering calculations, equipment, site map, operation & maintenance plan, operation & maintenance agreement, county denial letter, floodway regulation compliance, and threatened or endangered aquatic species documentation. The project referred to in this package is the construction of a surface drip wastewater irrigation system for a 3-bedroom single family home. The proposed system will consist of a septic tank, E-Z Treat recirculating media filter, recirculation tank, field dosing tank, and a surface drip irrigation system with all the necessary appurtenances. Thank you for your consideration for this New Single -Family Residence Wastewater Irrigation System Application. If you have any questions or require additional information, please contact me at (919) 467-12*11 111111,,�/ O I Sincerely, 0 051201 U David C Barjal3'OE Q :' i� •'•FHGINti�.•'� Project Manage,,//, 'R/STOp��e 1011111100� East Coast Investors, LLC Lot 62 & 63 Peninsula at Hyco Lake 051201 v - � O •'••.• GINE.••• Person County, North Carolina Form: SFRWWIS 06-16 MacConnell & Associates, P.C. 501 Cascade Pointe Lane, Suite 103 Cary, North Carolina 27513 P.O. Box 129 Morrisville, North Carolina 27560 Phone: (919) 467-1239 Fax: (919) 319-6510 DWR State of North Carolina Department of Environmental Quality Division of Water Resources Division of Water Resources 15A NCAC 02T .0600 — SINGLE-FAMILY RESIDENCE WASTEWATER IRRIGATION SYSTEMS INSTRUCTIONS FOR FORM: SFRWWIS 06-16 & SUPPORTING DOCUMENTATION The Division of Water Resources will not accept an application package unless all instructions are followed. Plans, specifications and supporting documents shall be prepared in accordance with 15A NCAC 02L .01009 15A NCAC 02T .0100, 15A NCAC 02T .0600, 15A NCAC 18A .1900, Division Policies and good engineering practices. Failure to submit all required items may result in the application being returned, and will necessitate additional processing and review time. For more information, visit the Water Quality Permitting Section's Non -Discharge Permitting Unit website General — When submitting a non -discharge application to the Water Quality Permitting Section's Non -Discharge Permitting Unit, please use the following instructions as a checklist in order to ensure all required items are submitted. Adherence to these instructions and checking the provided boxes will help produce a quicker review time by assisting the reviewer in locating the required materials and potentially reducing the amount of requested additional information. Unless otherwise noted, the Applicant shall submit one original and at least two copies of the application and supporting documentation. A. Cover Letter (All Application Packages): ® List all items and attached supporting documentation included in the application package, as well as a brief description of the requested permitting action. B. Application Fee (All New and Major Modification Application Packages): ® Submit a check, money order or electronic funds transfer made payable to: North Carolina Department of Environmental Quality (NCDEQ). ® The appropriate fee amount for new and major modification application packages may be found at: Standard Review Project Fees. C. Single -Family Residence Wastewater Irrigation Systems (FORM: SFRWWIS 06-16) Application (All Application Packages): ® Submit the completed and appropriately executed Single -Family Residence Wastewater Irrigation Systems (FORM: SFRWWIS 06-16) application. Any unauthorized content changes to FORM: SFRWWIS 06-16 shall result in the application package being returned. If necessary for clarity or due to space restrictions, attachments to the application may be made, as long as the attachments are numbered to correspond to the section and item to which they refer. ❑ If the Applicant Type in Item L2. is a corporation or company, provide documentation it is registered for business with the North Carolina Secretary of State. ❑ If the Applicant Type in Item L2. is a partnership, sole proprietorship, trade name, or d/b/a, enclose a copy of the certificate filed with the Register of Deeds in the county of business. ® The facility name in Item IL2. shall be consistent with the facility name on the plans, specifications, agreements, etc. ® The Professional Engineer's Certification on Page 6 of the Single -Family Residence Wastewater Irrigation Systems (FORM: SFRWWIS 06-16) application shall be signed, sealed and dated by a North Carolina licensed Professional Engineer. ® The Applicant's Certification on Page 6 of the Single -Family Residence Wastewater Irrigation Systems (FORM: SFRWWIS 06-16) application shall be signed in accordance with 15A NCAC 02T .0106(b). Per 15A NCAC 02T .0106(c), an alternate person may be designated as the signing official if a delegation letter is provided from a person who meets the criteria in 15A NCAC 02T .0106(b). ❑ If this project is for a renewal without modification, use the Non -Discharge System Renewal (FORM: NDSR) application. D. Existing Permit (All Modification Packages): ❑ Submit the most recently issued existing permit. ❑ Provide a list of any items within the permit the Applicant would like the Division to address during the permit modification (i.e., compliance schedules, permit description, monitoring, permit conditions, etc.). E. Property Ownership Documentation (All Application Packages): ® Per 15A NCAC 02T .0604(e), the Applicant shall demonstrate they are the owner of all property containing the wastewater treatment, storage and irrigation facilities: ® Legal documentation of ownership (i.e., contract, deed or article of incorporation), or ❑ Written notarized intent to purchase agreement signed by both parties with a plat or survey map, or ❑ Written notarized lease agreement that specifically indicates the intended use of the property and has been signed by both parties, as well as a plat or survey map. Lease agreements shall adhere to the requirements of 15A NCAC 02L .0107. ® Provide all agreements, easements, setback waivers, etc. that have a direct impact on the wastewater treatment, conveyance, storage and irrigation facilities. INSTRUCTIONS FOR FORM: SFRWWIS 06-16 & SUPPORTING DOCUMENTATION Page 1 of 4 F. Soil Evaluation (All Application Packages that include new irrigation sites): ®Per 15A NCAC 02T .0604(b) and current Division Policy, submit a detailed soil evaluation that has been signed, sealed and dated by a North Carolina Licensed Soil Scientist and includes at a minimum: ® The report shall identify all the sites/fields with project name, location, and include a statement that the sites/fields were recommended for the proposed land application activity. ❑ Note, if the soil evaluation was performed more than one year prior to the submittal of this application package, a statement shall be included indicating that the site has not changed since the original investigation. ® Field delineated detailed soils map meeting all of the requirements of the Soil Scientist Evaluation Policy. ® Soil profile descriptions meeting all of the requirements of the Soil Scientist Evaluation Policy. ® Provide all soil boring logs performed at the site. ® Standard soil fertility analysis conducted no more than one year prior to permit application for each map unit in the soil map legend for the following parameters: ❑ Acidity ❑ Exchangeable sodium percentage (by calculation) ❑ Phosphorus ❑ Base saturation (by calculation) ❑ Magnesium ❑ Potassium ❑ Calcium ❑ Manganese ❑ Sodium ❑ Cation exchange capacity ❑ Percent humic matter ❑ Zinc ❑ Copper ❑ pH Note: The number of samples will vary depending upon the project size and past land use history. Multiple samples for each map unit are required if the irrigation zones are separated, and cropland, pasture, hay land and wooded areas shall be sampled separately for the same map unit due to past differences in soil fertility management. ® Saturated hydraulic conductivity (KSAT) data that shall include at a minimum: ® A minimum of three KSAT tests shall be conducted in the most restrictive horizon for each soil series in the soil map. ® All KSAT tests shall be conducted in areas representative of the site. ® All KSAT tests shall be run until steady-state equilibrium has been achieved. ® All collected KSAT data shall be submitted, including copies of field worksheets showing all collected readings. ® Submit a soil profile description for each KSAT data point that shall extend at least one foot below the tested horizon. ® Soil evaluation recommendations shall include at a minimum: ® A brief summary of each map unit and its composition and identification of minor contrasting soils. ® Maximum irrigation precipitation rate (in/hr) for each soil/map unit within the proposed irrigation areas. ® Identification of areas not suitable for wastewater irrigation. ® Recommended geometric mean KSAT rate to be used in determining the SFR Loading Rate Group for each soil/map unit based upon in -situ measurement of the saturated hydraulic conductivity from the most restrictive horizon. ® Recommended annual hydraulic loading rate (in/yr) for each soil/map unit within the proposed irrigation areas based upon in -situ KSAT measurements form the most restrictive soil horizon. The recommended loading rate must be in accordance with the Single -Family Residence Wastewater Irrigationystem Loading Rate Calculation Policy. ® A completed copy of the Single -Family Residence Loading Rate Workbook (i.e., Project Information, Potential Evapotranspiration, Precipitation, and Irrigation Area Calculations). G. Engineering Plans (All Application Packages): ® Per 15A NCAC 02T .0604(c)(1), submit standard size and 11 x 17-inch plan sets that have been signed, sealed and dated by a North Carolina licensed Professional En ig ricer. ® At a minimum, the engineering plans shall include the following items: ® Table of contents with each sheet numbered, as well as cross-referenced with the appropriate application items. ® A general location map with at least two geographic references, vicinity map, topographic map and site map. ® A process and instrumentation diagram showing all flow, recycle/return, electrical paths, etc. ® Plan and profile views of all treatment and storage units, including their piping, valves, and equipment (i.e., pumps, etc.), as well as their dimensions and elevations. ® Details of all piping, valves, pumps, precipitation/soil moisture sensors, etc. ® A hydraulic profile from the treatment plant headworks to the highest irrigation point. ® The irrigation area with an overlay of the suitable irrigation areas depicted in the Soil Evaluation. ® Each nozzle/emitter and their wetted area influence, and each irrigation zone labeled as it will be operated. ® Locations within the irrigation system of air releases, drains, control valves, highest irrigation nozzle/emitter, etc. ® Plans shall represent a completed design and not be labeled with preliminary phrases (e.g., FOR REVIEW ONLY, NOT FOR CONSTRUCTION, etc.) that indicate they are anything other than final specifications. However, the plans may be labeled with the phrase: FINAL DESIGN - NOT RELEASED FOR CONSTRUCTION. INSTRUCTIONS FOR FORM: SFRWWIS 06-16 & SUPPORTING DOCUMENTATION Page 2 of 4 H. Specifications (All Application Packages): ® Per 15A NCAC 02T .0604(c)(2), submit specifications that have been signed, sealed and dated by a North Carolina licensed Professional Engineer. ® At a minimum, the specifications shall include the following items: ® Table of contents with each section/page numbered, as well as cross-referenced with the appropriate application items. ® Detailed specifications for each treatment/storage/irrigation unit, as well as all piping, valves, equipment (i.e., pumps, etc.), nozzles/emitters, precipitation/soil moisture sensor, audible/visual high water alarms, liner material, etc. ® Site Work (i.e., earthwork, clearing, grubbing, excavation, trenching, backfilling, compacting, fencing, seeding, etc.) ® Materials (i.e., concrete, masonry, steel, painting, method of construction, etc.) ® Electrical (i.e., control panels, etc.) ® Means for ensuring quality and integrity of the finished product, including leakage, pressure and liner testing. ® Specifications shall represent a completed design and not be labeled with preliminary phrases (e.g., FOR REVIEW ONLY, NOT FOR CONSTRUCTION, etc.) that indicate they are anything other than final specifications. However, the specifications may be labeled with the phrase: FINAL DESIGN - NOT RELEASED FOR CONSTRUCTION. L Engineering Calculations (All Application Packages): ® Per 15A NCAC 02T .0604(c)(3), submit engineering calculations that have been signed, sealed and dated by a North Carolina licensed Professional Engineer. ® At a minimum, the engineering calculations shall include the following items: ® Hydraulic and pollutant loading calculations for each treatment unit demonstrating how the designed effluent concentrations in Application Item V.I. were determined (Note: "black box" calculations are unacceptable). ® Sizing criteria for each treatment unit and associated equipment (i.e., pumps, etc.). ® Total and effective storage calculations for each storage unit. ® Friction/total dynamic head calculations and system curve analysis for each pump used. ® Manufacturer's information for all treatment units, pumps, irrigation system, etc. ® Flotation calculations for all treatment and storage units constructed partially or entirely below grade. ® Demonstrate the designed maximum precipitation and annual loading rates do not exceed the recommended rates. ® Demonstrate the specified auxiliary power source is capable of powering all essential treatment units. ® A properly completed and executed Single -Family Residence Loading Rate Workbook. Site Map (All Application Packages): ® Per 15A NCAC 02T .0604(d), submit standard size and 11 x 17-inch site maps that have been signed, sealed and dated by a North Carolina licensed Professional Engineer and/or Professional Land Surveyor. ® For clarity, multiple site maps of the facility with cut sheet annotations may be submitted. ® At a minimum, the site map shall include the following: ® A scaled map of the site with topographic contour intervals not exceeding two feet and showing all facility -related structures and fences within the wastewater treatment, storage and irrigation areas. ® Soil mapping units shown on all irrigation sites. ® The location of all wells (including usage and construction details if available), streams (ephemeral, intermittent, and perennial), springs, lakes, ponds, and other surface drainage features within 500 feet of all wastewater treatment, storage and irrigation sites. ® Delineation of the compliance and review boundaries per 15A NCAC 02L .01076 and .0108. ® Setbacks as required by 15A NCAC 02T .0606. ® Site property boundaries within 500 feet of all wastewater treatment, storage and irrigation sites. ® All habitable residences or places of public assembly within 500 feet of all treatment, storage and irrigation sites. K. Operation and Maintenance Plan (All Application Packages): ® Per 15A NCAC 02T .0604(fl, submit an operation and maintenance (O&M) plan encompassing all wastewater treatment, storage and irrigation systems that at a minimum shall address: ® How to perform routine inspections. ® A maintenance schedule. ® A troubleshooting guide. ® A layman's explanation of the wastewater treatment, storage and irrigation systems. ® A crop maintenance and management plan. ® Note a final O&M Plan may be submitted with the partial and/or final Engineering Certification required under 15A NCAC 02T .0116, however, a preliminary O&M Plan shall be submitted with each application package. L. Operation and Maintenance Agreement (All Application Packages): ® Per 15A NCAC 02T .0604(h), submit a notarized Operation and Maintenance Agreement that has been signed and dated by all deeded property owners. INSTRUCTIONS FOR FORM: SFRWWIS 06-16 & SUPPORTING DOCUMENTATION Page 3 of 4 M. County Health Department Denial Letter (All New Application Packages): ® Per 15A NCAC 02T .0604(g), provide a written letter from the local County Health Department denying the site for all subsurface systems. N. Floodway Regulation Compliance (All Application Packages where any portion of the wastewater treatment, storage and irrigation system is located within the 100-year floodplain): ® Per 15A NCAC 02T .0105(c)(8), provide written documentation from all local governing entities that the facility is in compliance with Article 21 Part 6 of Chapter 143 of the General Statutes (i.e., § 143-215.51. through § 143-215.61.). O. Threatened or Endangered Aquatic Species Documentation (All Application Packages): ® Per 15A NCAC 02T .0105(c)(10), submit documentation from the Department's Natural Heritage Program demonstrating the presence or absence of threatened or endangered aquatic species within the boundary of the wastewater treatment, storage and irrigation facilities. ❑ If the facility directly impacts such species, this documentation shall provide information on the need for permit conditions pursuant to 15A NCAC 02B .0110. P. Other Environmental Permits (All Application Packages that include stream or wetland crossings): ❑ Per 15A NCAC 02T .0105(c)(6), submit a copy of either the approved permit/certification or a letter from the appropriate review agency acknowledging receipt of the application for the following applicable permits/certifications: ❑ Division of Water Resources' Water Quality Permitting Section — Wetlands 401 Certification ❑ US Army Corps of Engineers South Atlantic Division — Nationwide 12 or Section 404 permit ❑ Per 15A NCAC 02T .0105(c)(6), this application shall be considered incomplete or the resulting permit may be issued conditionally, if a pending issuance of any of the aforementioned permits/certifications directly impact the facility herein. THE COMPLETED APPLICATION AND SUPPORTING DOCUMENTATION SHALL BE SUBMITTED TO: NORTH CAROLINA DEPARTMENT OF ENVIRONMENTAL QUALITY DIVISION OF WATER RESOURCES WATER QUALITY PERMITTING SECTION NON -DISCHARGE PERMITTING UNIT By U.S. Postal Service: 1617 MAIL SERVICE CENTER RALEIGH, NORTH CAROLINA 27699-1617 TELEPHONE NUMBER: (919) 807-6464 By Courier/Special Delivery: 512 N. SALISBURY ST. RALEIGH, NORTH CAROLINA 27604 FAX NUMBER: (919) 807-6496 INSTRUCTIONS FOR FORM: SFRWWIS 06-16 & SUPPORTING DOCUMENTATION Page 4 of 4 DWR State of North Carolina Department of Environmental Quality Division of Water Resources Division of Water Resources 15A NCAC 02T .0600 - SINGLE-FAMILY RESIDENCE WASTEWATER IRRIGATION SYSTEMS FORM: SFRWWIS 06-16 L APPLICANT INFORMATION: 1. Applicant's name as appears on deed, contract or lease agreement: East Coast Investors, LLC 2. Applicant type: ❑ Individual ® Corporation ❑ General Partnership 3. Signature authority's name: William G. Allen per 15A NCAC 02T .0106(b) Title: 4. Applicant's mailing address: 3129 Springbank Lane, Suite 201 City: Charlotte State: NC Zip: 28226- 5. Applicant's contact information: Telephone number: (704) 295-4623 Fax number: Email Address: garynsunbeltlandmgmt.com II. FACILITY INFORMATION: 1. Facility name: Peninsula - Lot 62 & 63 2. Facility status: ❑ Existing or ® Proposed 3. Facility's physical address: Peninsula - Lot 62 & 63 City: Semora State: NC Zip: 27343- County: Person 4. Wastewater Treatment Facility Coordinates: Latitude: 36' 30' 36" Longitude: -79. 04' 51" Provide the following latitude and longitude coordinate determination information: Datum: NAD83 Level of accuracy: Nearest second Method of measurement: Map interpretation by extraction 5. USGS Map Name: Alton Quadrangle (Virginia - North Carolina) III. CONSULTANT INFORMATION: 1. Engineer's name: David C. Barcal License Number: 51201 Firm: MacConnell & Associates, P.C. Engineer's mailing address: 501 Cascade Pointe Ln, Suite 103 City: Cat State: North Carolina Zip: 27513-_ Telephone number: (91�9 467-1239 Fax number: (919) 319- 651 2. Soil Scientist's name: Christopher Murray License Number: 1284 Soil Scientist's mailing address: 216 S. Swing Rd, Suite 1 City: Greensboro State: North Carolina Zip: 27409-_ Telephone number: (3.36) 662-5487 Fax number: (_) Email Address: david.barcal(i�macconnellandassoc.com Firm: Piedmont Environmental Associate, P.A. Email Address: IV. GENERAL REQUIREMENTS - 15A NCAC 02T .0100: 1. Application type: ® New ❑ Major Modification ❑ Minor Modification If a modification, provide the existing permit number: WQ00 and most recent issuance date: 2. Application fee: $60 3. Describe the origin of the wastewater and provide a brief project description: Three -bedroom residence at 90 GPD/bedroom 4. Wastewater flow: 270 GPD FORM: SFRWWIS 06-16 Page 1 of 6 IV. GENERAL REQUIREMENTS — 15A NCAC 02T .0100 (CONTINUED): 5. Using 15A NCAC 02T .0114, explain how the total wastewater flow was determined: Establishment Type Flow Basis Flow Per Unit Number of Units Flow Single Family Residence gal/bedroom 90 3 270 GPD gal/ GPD Total 270 GPD 6. Per 15A NCAC 02T .0105(c)(6), if the project includes any stream or wetland crossings, what is the status of the following applicable permits/certifications? Date Droved ate Permit/Certification � Permit/Certification No. Agency Reviewer Submitted A Nationwide 12 or 404 N/A Wetlands 401 N/A 7. What is the nearest 100-year flood plain elevation to the facility? 413 feet mean sea level. Source: FEMA Map: 3711907000J Are any treatment, storage or irrigation systems located within the 100-year flood plain? ❑ Yes or ® No If yes, has documentation of compliance with Article 21 Part 6 of Chapter 143 of the G.S. been provided? ❑ Yes or ❑ No V. DESIGN CRITERIA AND SETBACKS —.15A NCAC 02T .0605 & .0606: 1. Provide the estimated influent and designed effluent concentrations from the engineering calculations to verify conformance with 15A NCAC 02T .0605(b) for the following parameters: Estimated Influent Designed Effluent Minimum Required Parameter Concentration Concentration Degree of Treatment (monthly average) Prior to Stora e Biochemical Oxygen Demand 300 mg/1 6 mg/1 < 30 mg/1 BOD5 — Total Suspended Solids (TSS) 300 mg/1 4.5 mg/1 < 30 mg/1 Ammonia Nitrogen (NH3-N) 25 mg/1 2.87 mg/1 < 15 mg/1 Fecal Coliforms 187.5 per 100 nil < 200 colonies/100 nil 2. Per 15A NCAC 02T .0605(c), is the effluent placed directly in contact with GA classified groundwater? ❑ Yes or ® No If yes, have predictive calculations demonstrating such placement will not contravene GA groundwater standards been provided? ❑ Yes or ❑ No 3. Per 15A NCAC 02T .0605(d), are any of the treatment or storage units excavated into bedrock? ® Yes or ❑ No If yes, has a 10 millimeter synthetic liner been provided? ® Yes (Plan Sheet: D-105 & Specification Page: D or ❑ No 4. In accordance with 15A NCAC 02T .0605(e), are any earthen treatment and storage facilities provided? ❑ Yes or ® No 5. In accordance with 15A NCAC 02T .0605(I), have any by-pass or overflow lines been provided? ❑ Yes or ® No 6. If any treatment, storage or irrigation systems are located within the 100-year flood plain, in accordance with 15A NCAC 02T .0605(g), which systems are affected and what measures being taken to protect them against flooding? N/A 7. In accordance with 15A NCAC 02T .0605(h), has an operation and maintenance plan been submitted? ® Yes or ❑ No 8. In accordance with 15A NCAC 02T .0605(i), how will restricted access to the irrigation system be provided? 2-Strand Wire Fence (see design) Are all treatment units and control panels locked to prevent entry? ® Yes or ❑ No 9. In accordance with 15A NCAC 02T .0605(i), do the designed irrigation loading rates (see Application Item VIIA.) exceed the soil scientist recommended loading rates (see Application Item VIL3.)? ❑ Yes or ® No 10. In accordance with 15A NCAC 02T .0605(k), does the septic tank design adhere to 15A NCAC 18A .1900? ® Yes or ❑ No FORM: SFRWWIS 06-16 Page 2 of 6 V. DESIGN CRITERIA AND SETBACKS —.15A NCAC 02T .0605 & .0606 (CONTINUED): 11. In accordance with 15A NCAC 02T .0605(1), what is the specified method of disinfection? Ultraviolet If chlorine, specify contact detention time provided: minutes and where contact time occurs: If UV, specify the number of banks: 1, total lamps: 2 and maximum flow capacity: 10 GPM. 12. In accordance with 15A NCAC 02T .0605(m), has a minimum of five days of storage based on average daily flow between the pump off float and inlet invert pipe been provided? ® Yes or ❑ No 13. In accordance with 15A NCAC 02T .0605(n), have all tanks containing pumps been provided with audible and visual alarms that are external to any structure? ® Yes (Plan Sheet: D-102/D-103 & Specification Page: 5, 8) or ❑ No 14. In accordance with 15A NCAC 02T .0605(o), has a precipitation or soil moisture sensor been provided? ® Yes (Plan Sheet: D-105 & Specification Page: 6) or ❑ No 15. In accordance with 15A NCAC 02T .0605(n), has a minimum of 18 inches of vertical separation between the apparent seasonal high water table (SHWT) and the ground surface been provided? ® Yes or ❑ No 16. In accordance with 15A NCAC 02T .0605(a), has a minimum of 12 inches of vertical separation between any perched seasonal high water table (SHWT) and the ground surface been provided? ® Yes or ❑ No 17. In accordance with 15A NCAC 02T .0605(r), does the designed annual loading rate exceed 50 inches? ❑ Yes or ® No 18. Does the project comply with all setbacks found in the river basin rules (15A NCAC 02B .0200)? ® Yes or ❑ No If no, list non -compliant setbacks: 19. Per 15A NCAC 02T .0606, verify setback compliance by providing the minimum field observed distance (ft) from the facility's irrigation system and treatment/storage units to each listed setback parameter (Note: Distances greater than 500 feet shall be marked N/A): Setback Parameter Irrigation System Treatment / �Storage Unit Any habitable residence or place of assembly under separate ownership or not to be maintained as part of the project site N/A N/A Any habitable residence or place of assembly owned by the Permittee to be maintained as art of the project site 7 ft Any private or public water supply source N/A N/A Surface waters (streams — intermittent and perennial, perennial waterbodies, and wetlands) 155 ft 170 ft Groundwater lowering ditches (where the bottom of the ditch intersects the SHWT) N/A Subsurface groundwater lowering drainage systems N/A Surface water diversions (ephemeral streams, waterways, ditches) N/A Any well with exception of monitoring wells N/A N/A Any property line loft 70 ft Top of slope of embankments or cuts of two feet or more in vertical height N/A Any water line from a disposal system loft Any swimming pool N/A Public right of way N/A Nitrification field 60 ft Any building foundation or basement 7 ft 20. Are any setback waivers proposed for this facility? ® Yes or ❑ No If yes, in accordance with 15A NCAC 02T .0606(c), submit the appropriate setback waivers (FORM: NDWSW) that have been notarized, signed by all parties involved and recorded with the County Register of Deeds. Waivers involving the compliance boundary shall be in accordance with 15A NCAC 02L .0107. FORM: SFRWWIS 06-16 Page 3 of 6 VI. WASTEWATER TREATMENT & STORAGE FACILITY DESIGN: 1. Type of treatment system: Septic Tank / EZ Treat 2. Provide the requested information for each treatment/storage unit and its associated mechanical equipment: a. PRELIMINARY / PRIMARY TREATMENT (i.e., physical removal operations): No. of Manufacturer or Dimensions (ft) / Volume Plan Sheet Specification Treatment Unit Units Material Spacings in al Reference Reference David Brantley & Septic Tank 1 9x4.5x5.8 1,000 D-101 2-3 Sons Select Select b. SECONDARY TREATMENT (i.e., physical, biological and recirculation processes): No. of Manufacturer or Volume Plan Sheet Specification Treatment Unit Dimensions (ft) Units Material al Reference Reference David Brantley & Recirculation Tank 1 7.92x5.08x4.83 1,000 D-102 2-3 Sons EZ Treat 1 EZ Treat 7. 29x4. 08x3. 83 600 GPD D-105 4-5 Select c. DISINFECTION: No. of Manufacturer or Volume Plan Sheet Specification Treatment Unit Dimensions (ft) Units Material (al) Reference Reference Ultraviolet 1 EZ Treat 2.5Dx4H 10 GPM D-103 (2) 7 Select d. PUMP/STORAGE TANK: Manufacturer or No. of Total Effective Effective Plan Sheet Specification Material Units Dimensions (ft) Volume Volume Storage Reference Reference (gal) (al) (days) David Brantley & 1 13.2x6.5x7 3,500 2,226.5 6.2 D-103 (1) 2-3 Sons e. PUMPS: No. of Manufacturer / Capacity Plan Sheet Specification Location Pumps Purpose Type Reference Reference GPM I TDH Recirculation Tank 1 Does to EZ Treat Pod Sta-Rite STEP 30 13.6 100 D-102 (A) 4 1/2 h Field Dosing Tank 1 Dose to drip field Sta-Rite STEP 20 15.2 107.2 D-103 (A) 4 1/2 h f. BLOWERS: Location No. No. of Units Served TManufacturer / Type Capacity CFM Plan Sheet Reference Specification Reference N/A g. MIXERS: FORM: SFRWWIS 06-16 Page 4 of 6 Location No. of Mixers Units Served Manufacturer / Type Power h Plan Sheet Reference Specification Reference FORM: SFRWWIS 06-16 Page 5 of 6 VIL IRRIGATION SYSTEM DESIGN: 1. Are there any artificial drainage or water movement structures within 200 feet of the irrigation area? ❑ Yes or ® No If yes, please explain if the Soil Evaluation addresses artificial structures and indicate if these structures are to be maintained or modified: 2. What is the proposed cover crop? fescue, rye or bermuda 3. Soil Evaluation recommendations: Soil Series Fields within Soil Area Minimum Observed Depth to SHWT ft Recommended Loading Rate in/hr Recommended Loading Rate in/ r SmF & SmB Zones 1-2 1.25 0.3 18.67 4. Irrigation System Information (Note — this table may be expanded for additional fields): Field Area (acres) Dominant Soil Series Designed (RateR in/hr) Designed Rate ( in/ r Latitude , (DMS) Longitude , (DMS) Waterbody StreamIndex o z Classification 1 0.267 SmF & SmB 0.07 18.36 36030' 40" -790 04' 51" 22-58-(0.5) WS-V,B O I II O I II O I II O I II O I II O I II O I II O I II O I II O I II Total 0.267 1 Provide the following latitude and longitude coordinate determination information: Datum: UnknownL,evel of accuracy: Nearest second Method of measurement: Map interpretation by extraction 2 For assistance determining the waterbody stream index number and its associated classification, instructions may be downloaded at: https://ncdenr.s3.amazonaws.com/s3fs- public/Water%20Quality/Aquifer%2OProtection/LAU/Agreements/WSCA%2008-13.pdf. Spray Irrigation Design Elements Drip Irrigation Design Elements Nozzle wetted diameter: N/A ft Emitter wetted area: 8,610 ft2 Nozzle wetted area: N/A ft' Distance between laterals: 3 ft Nozzle capacity: N/A GPM Distance between emitters: 2 ft Nozzle manufacturer/model: N/A / N/A Emitter capacity: 0.53 GPH Elevation of highest nozzle: N/A ft Emitter manufacturer/model: Geoflow / Wasteflow PC - 1/2gph Specification Reference: N/A Elevation of highest emitter: 449.6 ft Specification Reference: 6 FORM: SFRWWIS 06-16 Page 6 of 6 Professional Engineer's Certification: 1, _David C. Barcal attest that this application for (Professional Engineer's name from Application Item III.1.) _ Peninsula - Lot 62 & 63 (Facility name from Application Item I1.1.) has been reviewed by me and is accurate, complete and consistent with the information supplied in the plans, specifications, engineering calculations, and all other supporting documentation to the best of my knowledge. I further attest that to the best of my knowledge the proposed design has been prepared in accordance with this application package and its instructions, as well as all applicable regulations and statutes. Although other professionals may have developed certain portions of this submittal package, inclusion of these materials under my signature and seal signifies that I have reviewed this material and have judged it to be consistent with the proposed design. Note: In accordance with General Statutes 143-215.6A and 143-215,613, any person who knowingly makes any false statement, representation, or certification in any application package shall be guilty of a Class 2 misdemeanor, which may include a fine not to exceed $10,000, as well as civil penalties up to $25,000 per violation. North Carolina Professional Engineer's seal, signature, and date: vF Al' SEAL' '; J ivy ; 051201 5 TO0H uu,,,ur� Applicant's Certification per 15A NCAC 02T .0106tb1: Wiliam G.Allen _attest that this application for (Signature Authority's name & title from Application Item 1.3.) Peni nsula - Lot 62 & 63 (Facility name from Application Item 11.1.) has been reviewed by me and is accurate and complete to the best of my knowledge. I understand that any discharge of wastewater from this non -discharge system to surface waters or the land will result in an immediate enforcement action that may include civil penalties, injunctive relief, and/or criminal prosecution. l will make no claim against the Division of Water Resources should a condition of this permit be violated. I also understand that if all required parts of this application package are not completed and that if all required supporting information and attachments are not included, this application package will be returned to me as incomplete. I further certify that the applicant or any affiliate has not been convicted of an environmental crime, has not abandoned a wastewater facility without proper closure, does not have an outstanding civil penalty where all appeals have been exhausted or abandoned, are compliant with any active compliance schedule, and do not have any overdue annual fees per 15A NCAC 02T _Q1Q516- Note: In accordance with General Statutes 143-215.6A and 143-215.613, any person who knowingly makes any false statement, representation, or certification in any application package shall be guilty of a Class 2 misdemeanor, which may include a fine not to exceed $10,000 as well as civil penalties up to $$25,000 per violation. Signature: ,`. %��rQ/�/ Z/CC-7 Date: O — l — Z 3 FORM: SFRW W 1 S 06-16 Page 7 of 6 State of North Carolina Department of Environmental Quality Division of Water Resources NON -DISCHARGE WASTEWATER SYSTEM WAIVER AGREEMENT TO WAIVE SETBACKS AS REQUIRED BY 15A NCAC 02T .0506(a), .0506(b), .0606(a), .0706(a) AND .1006(a) 1, East Coast lnv"tons. LLC:, President- Randolph Allen (printed name), certify that I am a deeded owner or an authorized agent of the property located at: Address: Lot 62 Pennisula at Hyco Lake Parcel No.: TBD City: Semora State: NC Zip Code: 27343 County: Person Furthermore, I certify that I am authorized to make decisions regarding this property, and that I do hereby agree that the setback distances cited below be granted to the Applicant/Permittee listed on the following page. I understand the setback requirements set forth in 15A NCAC 02T. For the parcel identified above, I consent to the following reduced setbacks: ® Wastewater Irri ationllniiltration Setback to 11ro ferty Lines The required setback of 50 feet is reduced to 10 feet, thereby allowing wastewater effluent irrigation or infiltration no closer than 10 feet from my property line. ® Wastewater Irrigation/Infiltration Setback to Places of Assembly The required setback of 100 feet is reduced to 20 feet, thereby allowing wastewater effluent irrigation or infiltration no closer than 20 feet from my residence(s) or place(s) of assembly. Wastewater Treatment and Stora a Unit Setback to Prover Lines The required setback of 50 feet is reduced to 10 feet, thereby allowing the construction of wastewater treatment and storage units no closer than 10 feet from my property line. ® Wastewater Treatment and Storage Unit Setback to Places of Assembly The required setback of 100 feet is reduced to 20 feet, thereby allowing the construction of wastewater treatment and storage units no closer than 20 feet from my residence or place of assembly. _ Signature: a —�� Ae.�_/GY'/ �.7 Date:2-7—,Z Z 7100 ash l�✓eSfars L FORM: NDWSW 02-19 Page 1 of Applicant/Permittee: E" til Luasl Invrsturs, LLC, President- Randolph Allen permit No.: Address: Lot 61, Pennisula at Hyco Lake City: Semora Parcel No.: TBD State: NC Zip Code: 27343 NORTH CAROLINA, COUNTY I, DOnno, n& C,(,1SL-,_ _, a Notary Public for S`'FQ%­,.` County: Person County, North Carolina, do hereby certify that lzakyy �bk,pk �i c t.-• personally appeared before me this day and acknowledged the due execution of the foregoing instrument. Witness my hand and official seal, this the day of !'7 y' SEAL DONNA M CASH Notary Public Slangy Cou1=1y North Carolina My Ccmmission Expires: O rtobnr 1 2027 Signature of Notary Public My commission expires /v Once notarized, this form shall be recorded at the Register of Deeds in the county or counties in which the described properties are located. A copy of the recorded waiver shall be sent to the following address: Division of Water Resources Non -Discharge Branch 1617 Mail Service Center Raleigh, North Carolina 27699-1617 FORM: NDWSW 03-17 Page 2 of 2 State of North Carolina Department of Environmental Quality Division of Water Resources NON -DISCHARGE WASTEWATER SYSTEM WAIVER AGREEMENT TO WAIVE SETBACKS AS REQUIRED BY 15A NCAC 02T .0506(a), .0506(b), .0606(a), .0706(a) AND .1006(a) I, Fit CoLst ]nvemrs, LLC., Pre%ident- Randolph Allen (printed name), certify that I am a deeded owner or an authorized agent of the property located at: Address: Lot 61. Pennisula at Hyco Lake _ Parcel No.: TBD City: Semora State: NC Zip Code: 27343 County: Person Furthermore, I certify that I am authorized to make decisions regarding this property, and that I do hereby agree that the setback distances cited below be granted to the Applicant/Permittee listed on the following page. I understand the setback requirements set forth in 15A NCAC 02T. For the parcel identified above, I consent to the following reduced setbacks: ® Wastewater Irrintionllnfiltration Setback to. Property Lines The required setback of 50 feet is reduced to 10 feet, thereby allowing wastewater effluent irrigation or infiltration no closer than 10 feet from my property line. ® Wastewater Irrieation/Infiltration Setback to Places of Assembly The required setback of 100 feet is reduced to 20 feet, thereby allowing wastewater effluent irrigation or infiltration no closer than 20 feet from my residence(s) or place(s) of assembly. Ea Wastewater Treatment and Storage Unit Setback to Property Lines The required setback of 5o feet is reduced to 10 feet, thereby allowing the construction of wastewater treatment and storage units no closer than 10 feet from my property line. ® Wastewater Treatment and Storage Unit Setback to Places of Assembly The required setback of 100 feet is reduced to 20 feet, thereby allowing the construction of wastewater treatment and storage units no closer than 20 feet from my residence or place of assembly. Signature: -- �f LJC1es:CrPYI� Date: -7- % 2aZ �S Coca S f In ve.5id r-. G. �- C FORM: NDWSW 02-19 Page 1 of APP I i cantlPerini ltce Address: City: East Coast Investors, LLC, President- Randolph Allen permit No.: Lot 62, Pennisula at Hyco Lake Semora State: NC Zip Code Parcel No.: TBD 27343 County: Person NORTH CAROLINA, YYL COUNTY I, o yr '�►� I a Notary Public for 5hkin L County, North Carolina, do hereby certify that �v� � A i `_tom' Personally appeared before me this day and acknowledged the due execution of the foregoing instrument. Witness my hand and official seal, this the _j__ day of r , iPA:a.Y SEAL E vDONNA M CASH Nol�iry PilliCly Caty.NOW, Cao linyCGInI155io, E'Pj'4. rtohar T Signature of Notary Public My commission expires d Once notarized, this form shall be recorded at the Register of Deeds in the county or counties in which the described properties are located. A copy of the recorded waiver shall be sent to the following address: Division of Water Resources Non -Discharge Branch 1617 Mail Service Center Raleigh, North Carolina 27699-1617 FORM: NDWSW 03-17 Page 2 of 2 State of North Carolina Department of Environmental Quality Division of Water Resources NON -DISCHARGE WASTEWATER SYSTEM WAIVER AGREEMENT TO WAIVE SETBACKS AS REQUIRED BY 15A NCAC 02T .0506(a), .0506(b), .0606(a), .0706(a) AND .1006(a) I, East Coam tnyoim, i.t,C, Proadeni-Randolph Alen (printed name), certify that I am a deeded owner or an authorized agent of the property located at: Address: Lot 63 Pennisula at Hyco Lake Parcel No.: TBD City: Semora State: NC Zip Code: 27343 County: Person Furthermore, I certify that I am authorized to make decisions regarding this property, and that I do hereby agree that the setback distances cited below be granted to the Applicant/Permittee listed on the following page. I understand the setback requirements set forth in 15A NCAC 02T. For the parcel identified above, I consent to the following reduced setbacks: ® Wastewater lrri ation/Infiltration Setback to Property Lines The required setback of 50 feet is reduced to 10 feet, thereby allowing wastewater effluent irrigation or infiltration no closer than 10 feet from my property line. ® Wastewater Irr' ationlinflltration Setback to Places of Assembly The required setback of 100 feet is reduced to 20 feet, thereby allowing wastewater effluent irrigation or infiltration no closer than 20 feet from my residence(s) or place(s) of assembly. Wastewater Treatment and StoraLye unit Setback to Property Lines The required setback of 50 feet is reduced to 10 feet, thereby allowing the construction of wastewater treatment and storage units no closer than 10 feet from my property line. ® Wastewater Treatment and Storage Unit Setback to Places of Assembly The required setback of 100 feet is reduced to 20 feet, thereby allowing the construction of wastewater treatment and storage units no closer than 20 feet from my residence or place of assembly. Signature: 40,,, Date:: ^ 7-262 �gsf �a�sf l� �estors� L1 C FORM: NDWSW 02-19 Pagel of 2 Applicant/Permittee: East Cmisl hivesrot:s. LLC, President- Randolph Allen permit No.: Address: Lot 62, Pennisula at liyco Lake City: Semora State: NC Zip Code: NORTH CAROLINA, ) r_ COUNTY Parcel No.: TB❑ 27343 County: Person I, k�0rrd VYl�, a Notary Public for County, North Carolina, do hereby certify that Qv" personally appeared before me this day and acknowledged the due execution of the foregoing instrument. Witness my hand and official seal, this the _j_ day of — C SEAL DONNA M CASH Notary Public Stanly County North Carolina My CCmrtussion Expires: Ortnhnr 1. 2027 Signature of Notary Public My commission expires _ C�]/d C !3 Once notarized, this form shall be recorded at the Register of Deeds in the county or counties in which the described properties are located. A copy of the recorded waiver shall be sent to the following address: Division of Water Resources Non -Discharge Branch 1617 Mail Service Center Raleigh, North Carolina 27699-1617 FORM: NDWSW 03-17 Page 2 of 2 State of North Carolina Department of Environmental Quality Division of Water Resources NON -DISCHARGE WASTEWATER SYSTEM WAIVER AGREEMENT TO WAIVE SETBACKS AS REQUIRED BY 15A NCAC 02T .0506(a), .0506(b), .0606(a), .0706(a) AND .1006(a) 1 hast Coast lnmtms, l.l.C, Proidwl- Randolph Allen (printed name), certify that I am a deeded owner or an authorized agent of the property located at: Address: Lot 63, Pennisula at Hyco Lake Parcel No.: TBD City: Semora State: NC Zip Code: 27343 County: Person Furthermore, I certify that I am authorized to make decisions regarding this property, and that I do hereby agree that the setback distances cited below be granted to the Applicant/Permittee listed on the following page. I understand the setback requirements set forth in 15A NCAC 02T. For the parcel identified above, I consent to the following reduced setbacks: ® Wastewater Irrigationllnfiltration Setback to Property Lines The required setback of 50 feet is reduced to 10 feet, thereby allowing wastewater effluent irrigation or infiltration no closer than 10 feet from my property line. ® Wastewater Irrigation/Infiltration Setback to Places of Assembly The required setback of 100 feet is reduced to 20 feet, thereby allowing wastewater effluent irrigation or infiltration no closer than 20 feet from my residence(s) or place(s) of assembly. Wastewater Treatment and Storage Unit Setback to Property Lines The required setback of so feet is reduced to 10 feet, thereby allowing the construction of wastewater treatment and storage units no closer than 10 feet from my property line. ® Wastewater Treatment and Storaee Unit Setback to Places of Assembly The required setback of 100 feet is reduced to 20 feet, thereby allowing the construction of wastewater treatment and storage units no closer than 20 feet from my residence or place of assembly. Signature: L%— P/' Date: 2- 7- 2 0 2 �2 s� �'da 5 ` In ✓ems 6rs L Z_C FORM: NDWSW 02-19 Page 1 of 2 Applicant/Permittee: East Coast Investors, LLC, President- Randolph Allen Address: Lot 64, Pennisula at Hyco Lake City Semora Permit No.: Parcel No.: TBD State: NC Zip Code: 27343 County: Person NORTH CAROLINA, YV\ju ]cCOUNTY a I, �. r r• V1ti (LX3L_1 , a Notary Public for Stay,,Vy County, North Carolina, do hereby certify that q r ` ,J personally appeared before me this day and acknowledged the due execution of the foregoing instrument. Witness my hand and official seal, this the I SEAL LDONNA M CASH ry PWAL ry Nnrilli+s,wr E=µirca: rver 5 21127 day of 9� 1 r U �aeL_( Signature of Notary Public My commission expires (T 63� Once notarized, this form shall be recorded at the Register of Deeds in the county or counties in which the described properties are located. A copy of the recorded waiver shall be sent to the following address: Division of Water Resources Non -Discharge Branch 1617 Mail Service Center Raleigh, North Carolina 27699-1617 FORM: NDWSW 03-17 Page 2 of 2 East Coast Investors, LLC Lot 62 & 63 Peninsula at Hyco Lake N SEAL 9` - p 051201 ' .,GIN roP� is ti, '11rr111110`\\ Person County, North Carolina Project Narrative MacConnell & Associates, P.C. 501 Cascade Pointe Lane, Suite 103 Cary, North Carolina 27513 P.O. Box 129 Morrisville, North Carolina 27560 Phone: (919) 467-1239 Fax: (919) 319-6510 Project Narrative Introduction Owner East Coast Investors, LLC Registered Agent William G. Allen Property Address Lot 62 & 63, Peninsula at H co Lake Facility Bedrooms 3 Flow Reduction 25 % Design Flow (GPD) 270 The Owner proposes to construct a 3-bedroom single family home at the above -mentioned location in Person County, North Carolina. The site has been previously determined to be unsuitable for subsurface disposal. Please see section titled County Health Department Denial Letter for additional details. The onsite wastewater system will be an EZ Treat Treatment System with a surface drip irrigation field. David C. Barcal, PE of MacConnell & Associates, PC has been retained for the design of the surface drip system with TS-II pretreatment. These plans are being submitted for review and approval to obtain a Single -Family Residence Wastewater Irrigation System for the onsite system that will serve the 3-bedroom single family home. The proposed system will consist of a septic tank, an E-Z Treat recirculating media filter, a recirculation tank, a field dosing tank, an E-Z Set drip irrigation system, E-Z Set drip irrigation tubing and the necessary appurtenances. The proposed wastewater treatment and disposal system does not have any conflicts with existing utilities in the area. The system also maintains all the buffers required in the 15A NCAC 02T .0600 rules. The proposed systems shall meet all of the requirements and specifications outlined in: Innovative Wastewater System Approval No: IWWS-2015-03-R2 and Innovative Wastewater System Approval No: IWWS -2007- 1 -R 1. Septic, E-Z Treat Recirculation, and Field Dosing Tank The proposed wastewater treatment system will provide both anaerobic treatment and solids removal in a new 1,000-gallon septic tank. This tank will provide greater than 48 hours of detention providing for adequate anaerobic treatment and solids removal from the wastewater. Septic tank effluent will drain into the E-Z Treat recirculation tank as wastewater flows into the septic tank. The septic tank will contain a Polylok PL-122, SIM/TECH STF-110 or approved equal effluent filter to prevent solids from reaching the E-Z Treat recirculation tank. The E-Z Treat recirculation tank is a new 1,000-gallon pump tank. An effluent bypass valve located in the E-Z Treat recirculation tank will separate the flow once the E-Z Treat treatment unit is dosed. The effluent will be returned to the E-Z Treat recirculation tank until the bypass valve is closed, the remaining effluent will then flow to a field dosing tank. Effluent will be recirculated East Coast Investors, LLC — Peninsula at Hyco Lake Lot 62 & 63 Surface Drip System with TS-II Pretreatment MacConnell & Associates, P.C. Project No.: C08662.00 through the E-Z Treat treatment unit until additional septic tank effluent enters the E-Z Treat recirculation tank causing the bypass valve to close. The field dosing tank is a new 3,500-gallon tank. The field dosing tank will provide treated effluent to dose the fields. E-Z Treat Treatment Unit The Model 600 E-Z Treat treatment unit will be used to provide additional treatment to the septic tank effluent as well as removing any suspended solids not removed by the septic tank. The E-Z Treat treatment unit includes housing, piped distribution system, sprinkler heads, and styrene media. The underdrain system will transport the E-Z Treat treatment unit effluent back through an effluent bypass valve into one of the dosing tanks. E-Z Set Drip Wastewater Subsurface Drip System The E-Z Set drip irrigation system consists of the field dosing controls, vortex filter, hydraulic unit, and pump used to dose the disposal fields. The system controls determine when the pump doses the disposal field. The vortex filter provides even greater filtration to ensure that solids in the effluent do not clog the drip irrigation line emitters. Ultraviolet Disinfection The effluent from the E-Z Treat recirculation tank will be disinfected by ultraviolet light prior to entering the field dosing tank and being irrigated. The ultraviolet disinfection unit shall be by E- Z Treat (Model E-Z UV 102) or approved equal by engineer. Drip Irrigation Lines The drip irrigation lines are dosed by the hydraulic unit. These lines consist of a hollow pipe filled with pressure compensating drip emitters spaced on two -foot intervals. These emitters ensure that there is uniform distribution of the treated wastewater throughout the irrigation zones. The drip lines will follow the contour lines at three-foot horizontal spacing and make a complete loop back to the dosing tank. This ensures that proper pressure is maintained in the drip lines and that there is a means for flushing the lines in the instance that they become clogged. Rain Sensor A Hunter Mini-Clik rain sensor is included in the wastewater design to ensure that irrigation does not occur during precipitation events. East Coast Investors, LLC — Peninsula at Hyco Lake Lot 62 & 63 Surface Drip System with TS-II Pretreatment MacConnell & Associates, P.C. Project No.: C08662.00 Project Contacts Names, addresses, phone and fax numbers of the owner, soil scientist, and engineer are as follows: Owner: East Coast Investors, LLC Registered Agent: William G. Allen 3129 Springbank Lane, Suite 201 Charlotte, North Carolina 28226 Phone: (704) 295-4623 Soil Scientist: Mr. Chris Murray, LSS Piedmont Environmental Associates, PA 216 S. Swing Road, Suite 1 Greensboro, NC 27409 Phone: (336) 662-5487 Engineer: Mr. David C. Barcal, P.E. MacConnell & Associates, P.C. P.O. Box 129 Morrisville, North Carolina 27560 Phone: (919) 467-1239 Fax: (919) 319-6510 East Coast Investors, LLC — Peninsula at Hyco Lake Lot 62 & 63 Surface Drip System with TS-II Pretreatment MacConnell & Associates, P.C. Project No.: C08662.00 East Coast Investors, LLC Lot 62 & 63 Peninsula at Hyco Lake Person County, North Carolina Property Ownership Documentation MacConnell & Associates, P.C. 501 Cascade Pointe Lane, Suite 103 Cary, North Carolina 27513 P.O. Box 129 Morrisville, North Carolina 27560 Phone: (919) 467-1239 Fax: (919) 319-6510 3:44 P M Document i1 13367 4/30/2019 FILED (:;Person Countv )6sell Jones Administrator 0 X0001�\ \00, Is FILED in PERSON County NC on Apr 30 2019 af 04.11:�7 PM by: fONYA R. WILSON REGISTER OF DEEDS Book 1006 Pa 128 sued Apr 30, 20L9 Q -I $5,500.00 \00Stafis Of North Carolina Person County Esfato Excm" Tax 381076 NORTH CARO INA SPECIAL WARRANTY DEED WITH EASEMENT RESERVATION Site Nos.: 104540 1070299 106874 Land Unit Nos.: 1183742, 1183673, 1183625, 1183749, 11841089 11846639 1183601, 1183559 Project No.: 104540-461850 Excise Tax: $5,500-.00 Tax Parcel Identifier Nos.: I�le'�IN (Parcel #1), 9070-03-13-5472 CFParcel #2). and 9070-03-10-5402 (Parcel #3) Verified by TZ 1.1 1 ounty on the day o Mail/Box to: Grantee xol�\ f GrantoaZn i 120 This instrument was prepared by: Ithi Anderson, Blount, Dorsett, Mitchell (Without title examination. No title onion t*s expressed directly or indirectly Brief description for the Index: 1417m-wj & Jernigan, L.L.P. (DWB) bv our DreDarafion of this Deed. Parcels/Tracts -Cunningham Townshi THIS DEED made this 29th day of April, S6)q!,> by and between GRANTOR DUKE ENERGY PROGRESS, LLC, a North Carolina limited liability company I (f/k/a DUKE ENERGY PROGRESS, INC. and CAROLINA POWER & LIGHT COMPANY d/B/,,a', PROGRESS ENERGY CAROLINAS, INC.) Y� c/o Data & Document Management 550 South Tryon Street DEC 22A Charlotte, North Carolina 28202 X The de assigns, and sha GRANTEE EAST COAST INVESTORS, LLC a South Carolina limited liability company 3129 Springbank Lane, Suite 200 Charlotte, North Carolina 28226 IV signation Grantor and Grantee as used herein shall include said parties, their heirs., successors, and I& 11 include singular, plural, masculine, feminine or neu asrequired �er by context. as WITNESSETH, that Grantor, for a valuable consideratio id by Grantee, the receipt of which is hereby acknowledged, has and by these presents does grant, bargain, sell and iey unto Grantee in fee simple, subject to the restrictive covenants herein set forth and easement reserved unto asset forthinExhibit Battachedhereto andincorporatedhereinbyreference,allofthosecertaintracts,lots,orparl's of land situated in Cunningham Township, 6 Person County. North Carolina and more Darticularlv described as follows'. See Exhibit A attached hereto and incorporated herein b #7327308v3 NC Bar Association Form No. 6O 1/1/201012013 Printed by Agreement with the NC Bar Association refere the "Prooerty" This standard form North Carolina Bpi 0 4as been approved by: association - NC Bar Form No. 6 O �CD BOOK 1006 PAGE 429 38107 Page 373; Book 98, Pnge 327 398: a portion of the Property herein conveyed does not include the primary residence of Grantor. MMWM� howing portions) of the Property described on Exhibit A hereof are recorded in Plat I ook 15, Page 379; all Person County Registry. shall not include (I*) anv lands located below the 420 contour (NGVD 29) t. title, or interest wha and Plat Book 15. Paize 399 , facilities, equipmentwor other personal property now located at the Property or as the same may hereafter be located a t the Property pursuant to the terms and conditions of the easement herein reserved b y Property an Grantor. d(t�at shall remain a<0 _AL PERSO YO X0001�\ �81 ,,,Bbok 660, Page 603, all Person County Registry. All or Plats s Plat I oA 15, Page 397 Tract 2 only The Property was acquired by Grantor by instruments recorded in Book 98, Page ); Book 659, Page 2 135; Book 98, Page 125; Book 18; Book 660, Page 599; and 0 Plat Book 15, Page T e Property conveyed in this Deed IP surround1�g Hyco Lake-, and/or (ii) any righ Book 98, Page 287 tsoever in or to Grantor's lines fixtures. t the ASWELL LAKE AUTHORITY GUIDELINES. The terms and conditions of the Person- ""b ' Caswell Lake Authfiy's "Guidelines for the Use of Residential Leased Properties at Hyco Lake", effective October 1, 2006 and as revised a0adopted September 111 20069 by the Person -Caswell Lake Authority and Progress Energy (the "Person- Caswell Lake Authority Guidelines") shall be, appurtenant to, and shall run with Parcel #1 and Parcel #2 of the Property described on Exhibit A hereof and shall be binding upon Grantee, any future owner(s) of Parcel #1 and Parcel #2 of the Property, and/or any other persons possessing an interest in said Parcel #1, Parcel #2, or portion(s) thereof. As used in this De 6dthe term "Person -Caswell Lake Authority Guidelines" also shall include any future amendments and/or modificatio S thereto made by Grantor, the Person -Caswell Lake Authority, or any other federal, state, or local governmental age c having jurisdiction over Parcel #1 and Parcel #2 of the Property, Grantor's Hyco Lake property located below the 4?(Vontour (NGVD 29) surrounding Hyco Lake, and/or Hyco Lake. C' RESTRICTIVE COVENAOPrS. Grantee, by the acceptance of this conveyance and the recording of this Deed, on behalf of itself and any subseqIpt owner of an interest in the Property agrees that the Property is and shall be subject to the following restrictive covena A ; which shall burden and run with title to the Property: The Property shall not be used for any industrial or manufa<o_ ring purpose, dangerous or noxious trade or business, landfill, or any illegal purposes (collectively the "RestrictCovenants"). Grantee further acknowledges and agrees that Grantor, Grantee, or any future fee owner of the Property (orportionithereof) shall have the right to enforce any violations) of the aforesaid Restrictive Covenants pursuant to any a fable remedies at law or equity, including without limitation the right to bring an action in the Superior Court of PersoXgounty or any other proper venue in the State of North Carolina seeking a mandatory injunction and/or any other ap�r .priate relief to enforce the Restrictive Covenants. TO HAVE AND TO HOLD the aforesaid P rty, together with all privileges and appurtenances thereto belonging to Grantee in fee simple. And Grantor covenants with Grantee, that Grantor one nothing to impair such title as Grantor received, and Grantor will warrant and defend the title against the lawful chic s of all persons claiming by, under or through Grantor, other than the following exceptions: 1. The easement reserved unto Grantor as set forth in Exhiffil't 11 hereof; 2. The Restrictive Covenants set forth in this Deed; 111,10 3. All real and personal property takes and assessments for 2019 aRll;�Ubsequent years not yet due and payable; \00, 4. All present and future environmental and zoning laws, ordinances, re°• �.utions, orders, and regulations of all municipal, county, state, or federal governments having jurisdiction o er, he Property and/or the use thereof; #72892120 NC Bar Association Form No. 6O 1/1/2010.2013 This standard form as been approved by: Printed by Agreement with the NC Bar Association North Carolina ssociation — NC Bar Form No. 6 0 Yy BOOK 1006 PAGE 130 38107 (: X 0 5. Any liens arising out of or resulting from the performance ot any inspections, work, or activities at the Property .0 @ V.00)� bV or on behalf of Grantee, Sunbelt Acquisitions, LLC xo� officers, directors, \00, 6. All buil - V insurance and affecting the Property and/or its use as heretofore or hereinafter gauthority having urisdiction over the Property and the use thereof; VW_ or by any o members, managers, employees, contractors, surveyors, V 7. AAV and all public transportation, road, and railroad easements and/or rights ot way ot record affecting the f Grantee's or Sunbelt Acquisition LLC agents, or representatives; 'S ding codes, regulations, ordinances, and restrictions heretofore or hereafter adopted by a public agency, rating codes and regulations, and any other laws, regulations, ordinances, or requirements adopted by any federal, state, or local erty; 8. An 9. Rid 10. Thy Pay ity easements and rights of way of record affecting the Property; rt in and to the continued uninterrupted flow of any creeks or streams crossing the Property; itions, and restrictions of the Person -Caswell Lake Authority Guidelines affecting Parcel #1 and Property (or any po ions thereof) as set forth herein; 11. All matters that would be revealed bv a current and accurate survey of the Property, including without fin-itation (i) all matters shown o 379; Plat Book 15, I�ja unrecorded survey e ar any of the following plats recorded in the Person County Registry: Plat Book 15, Page 397; Plat Book 15, Page 398; and Plat Book 15, Page 399 d "Prope (ii) all matters shown on the rty of Carolina Power & Light Company Hyco Land — Portion of L.P. Stigall r\00 t Tract", dated Apri119 $�nd prepared by Moore, Gardner &Associate s, Inc. (Dwg. No. L-F-6310); and/or all matters shown on the y entitled "Boundary Survey for Peninsula at Hyco Lake for Sunbelt Land Management LLC date wary 22, 2019, and prepared by McKim &Creed; 12. Grantor's Mo gage and Dee Trust, dated May 1, 1940, and recorded in Book 49, Page 500, Person County Registry, as supplemented. Gra rpresaid shall apply for, obtain, and record in the Person County Registry a release of the Property from the lien of t?he€oMortgage and Deed of Trust within one (1) year from the date this Deed is recorded; and 13. Judgment in a Criminal Case imposed May 14, 2015, in the matter of United States of America v. Duke Energy Progress, Inc. (n/k/a. Duke Ener rogress, LLC) (U.S. District Court for the Eastern District of North Carolina Case No.,: 5:15-CR-62, 67 & 6 orded in Book 908, Page 537, Person County Registry. [REMAINDER OF PAG TENTIONALLY LEFT BLANK] _41 #7327308v3 NC Bar Association Form No. 6O 1/1/2010, 2013 Printed by Agreement with the NC B Association XFO Ise YO C• eils standard form has been approved by: North Carolina Bar ,Association — NC Bar Form No. 6 J `Y YX BOOK 1006 PAGE 43138107 IN WITNESS WHEREOF, Grantor has duly executed the foregoing North Carolina Special Warranty Deed h Easement Reservation as of the day and year first above written. D��• a NoI�, (f/k/a ENERGY PROGRESS, LLC, ,Carolina limited liability company DUKE ENERGY PROGRESS, INC. and f/k/a CA PROGR By: LINA POWER & LIGHT COMPANY d/b/a ENERGY CAROLINAS9 INC.) Name: I R. Fadden Title: DirB�tbr, Real Estate Strategy and Transactions STATE OF NORTH CAROL9 A 0 COUNTY OF MECKLENBURGXAF"' I, the undersigned Notary P4 fic of --(10.-- County, North Carolina, certify that Carol R. Fadden personally came before me this Oa,and being personally known to me or proven by satisfactory evidence to be the individual whose name is subscribed tkt *e within instrument, and acknowledged that she is the Director, Real Estate 4& Strategy and Transactions, an authorized re*sentafive of DUKE ENERGY PROGRESS, LLC, a North Carolina limited liability company (f/k/a Duke Energy Progreonc. and f/k/a Carolina Power & Light Company d/b/a Progress Energy Carolinas, Inc.), and that she, in such capacity, bein authorized to do so, executed the foregoing instrument on behalf of the limited liabiIt liIt ty company for the purposes St t therein. Witness my hand and Notarial stamp o My Commission Expires: -2, (Affix Notary StaA VA �l)ui�� T Notary Public �q _ co Gaston cn MOP Now aw lob ow County My Comm. Exp. left yO 09q& 18-2023 V `` #73273080 CAR��� NC Bar Association Fo;A11f4h1.1VW /1/2010, 2013 Printed by Agreement with the NC Bar Association 0 `�j r seohisz)q, day of April, 2019. 0 01 Notary Public Sig"te 04 Notary Public's Printed or Typed befpotument shows prof nowledgemen officer authorized to toe of /acknowledgement; acknowledgement inclu s �cers signature, com ion pi tionlllllll,lldaiiiiiiiiiiiiiiilllllIll""I'll"'I +cial seal, if reqired. i11111111111�1� Tanya R. Wilson, Person County e ister of deeds standard form has been apprvved by: North Carolina Bar -Association — NC Bar Form No. b BOOK 1006 PAGE 132 38107 EXHIBIT A (DESCRIPTION OF THE PROPERTY) The Property is comprised of three (3) tracts or parcels of land, which are more particularly d&(cribed as follows: Parcel # 1: Leg and being in Cunningham Township, Person County, North Carolina: 0 more oi 6 Martin - i 4 ecc ml urawing of that certain tract or parcel of land containing approximately 389.59 acres, ss, as the same is more particularly, described on that plat prepared b y Davis- ell & Associates, Inc. for Progress Energy Carolinas, Inc. entitled Kion Map of Portions of HvcoyTracts 14, 21? 2219 2315 9(G and 90H" o. L-C-10137), dated October 30, 2007 1, and recorded on December 18, 2007, in Plat Book 15, Page 398, Person County Registry, which by reference. J, Parcel #2.9 CeOA 10 is incorporated herein The courses in the folloN g description are based on the North Carolina State Plane Coordinate system.. 0 - � T Being that certain tract or tral�el of land lying and being iinCunnngham Township, Person County, North Carolina and re particularly described as follows: BEGINNING at a southeastern comer of now or formerly J. B. Hob9ood in a western property line of Carolina Power & ht Company (now d/b/a as Progress Energy Carolinas, Inc.), said corner having Carolina Coordinates Y = 190040542-M174 and X=1971.867.833: and runs thenclona, and with said western property line of 41 degree 53 minutes 45 seconds West F)Vrolina Power & Light Company and northwestern corner of now or formerly Kenneth Royster; thence along and with a Carolina Power & Light Company Sou 1,153.84 feet to a southwestern corner o western property line of now or formerly Kenneth Royster South 0 1 degree OS minutes 58 seconds West 1267054 feet to a point in the northern property line of Carolina Power & Light Compan.,; thence along with the northern property line of Carolina Power &Light Company the followin ur (4) courses and distances: South 86 degrees 56 minutes 42 seconds West 21 feet, South 20 degrees 36 minutes 12 seconds West 135.37 feet, South 75 degree minutes 50 seconds West 145.98 feet, and South 88 degrees 30 minutes 45 second,��Vest 258.36 feet; thence along and with a new line North 02 degrees 11 minutes Seconds West 2,517.97 feet to a point in a southern property line of now cr form�i'y J. B. Hobgood; and thence along and with said southern property line of now or f�n� grly J. B. Ho ood #72892120 NC Bar Association Form No. 6 C 1/1/2010,2013 This standard form has been approved by: Printed by Agreement with the NC Bar Association North Carolina ssociation — NC Bar Form No. 6 0 �y North 84 degrees 03 minutes 47 seconds BEGINNING, containing 41.950 acres, "TRACT R" on Carolina Power & Light BOOK 1006 PAGE 133 30107 East more or less, as shown and depicted as 822.15 feet to the po10 int of Company Drawing No. L-F-63 10 (dated April 1980), which is incorporated herein by reference; and being the same land described in a deed from William E. Brady and wife, Elizabeth P. Brady to UP&L d/b/a Progress Energy Carolinas, Inc. dated and recorded on December 20, 2007, in in a deed from W1*11i"am Book 660Page 599Person County Registry; and further being the same in a deed from E. Brady et al. to William E. Brady and wife, il 15,11 1993 and recorded in Book 227 Page 442, Person described zabeth P. Brady dated Apr byhl at Pa. ty egistry and being a portion of the 1 land and conveyed to Carolina Power & Light ed from L. P. StiLall., et ux, dated October ?.-4 45, Person County Registry. 1963 andrecDrdedin Book 98 (Parcel #Vs- designated by Person County as PIN 9070-03-ft 13 -5472) 0 Parcel #3..0 Lying and being unn*ingham Township, Person County, North Carolina: BEGINNING at a P il marking a southwestern corner of now or formerly David Royster, et al., i"n th nterli"ne of Zion Level Church Road (NCSR 1314), the location of said PK r� having N.C. Grid Coordinates Y = 999,719.91 and X = 1971 758.141P and Ahence along and with the centerline of Zion Level Church Road (NCSR 1314� e following two (2) courses and distances: South 59 degrees 07 minutes OS secon est 444.23 feet to a PK nail and South 58 degrees 57 minutes 06 seconds West 135.90 feet to a PK nail; thence North 21 degrees 20 minutes 51 seconds West 994.6<1et to an iron pipe-* thence North 10 degrees 43 minutes 30 seconds West 882.75 t to an iron pipe in a southern property line of Carolina Power & Light Company /a Progress Energy Carolinas9 Inc.; thence along and with said southern property of Carolina Power & Light Compan y d/b/a Progress Energy Carolinas, Inc., North degrees 44 minutes 56 seconds East 153.66 feet to a monument marking a western c6e er of now or formerly David Royster, et al.., thence along and with westerly pro perty�nes of now or formerly David Royster, et al., the followingwot(2) courses and distances: South 10 degrees 43 minutes 30 seconds East 899.97 feet to a monument and South 22 degrees 58 minutes 54 seconds East 921.58 feet to a monument in the northwesterright of way edge of Zion Level Church Road (NCSR 1314)1, and thence continalong and with a westerly property line of now or formerly David Royster, et South 22 degrees 58 minutes 54 seconds East 31.40 feet to the point of BEGINNIN"ontaining 6.74 acres, more or less, as shown on that certain plat recorded on Decen)e& 18,, 2007,1*n Plat Cabinet 15, Hanger 397 Person County Registry (Progress Enemy Carolinas, Inc. Drawing No. -C- 10227 dated November 28, 2007 & and being thee land described in a #7327308v3 NC Bar Association Form No. 6O I/l/2010,2013 Printed by Agreement with the NC Bar Association )eis standard form has been approved by: North Carolina Bar Association - NC Bar Form No. 6 BMK 10M PAGE 1313810) (: X YQ deed from Top Farms Inc. to CP&L d/b/a Progress Energy Carolinas, Inc. dated and recorded on December 20, 2007 and further being a portion of the \00,00 Pass n Book 660, Page 603 Person CountyRegi stry; land described ir a quitclaim deed from Thomas O. Jr., and wife, Pqtrl*cia T. Pass, to TOP Farms - recorded in Book 191 Page 679. Person County Registry. \000 Cal dated June 30, 1986, and Parcel #3 is designated by Person County as PIN 9070-,.-03-10-5402)* � GETHER WITH the following appurtenant easements running with Parcel #3 pursuant to the Accd Temporw Registry, and 11 of the and a asement Agreement tion Easement nstruc fight Distance Easement recorded in Book 660 40 ntor s rights, privileges, and obligations thereunder which are hereby assigned b y Grantor to Gran recorded in Book 660, Page 616, Person County Registry.0 Agreement recorded in Book 660, Page 607, Person County Page 613, Person County Registry, and assumed by Grantee as of the recording date of this Deed #7327308v3 NC Bar Association Fo No. 6O I/l/2010,2013 Printed by Agreement with the NC Bar Association a (: X 0 X00 Ise eisstandard farm has been approved by: North Carolina Bar.Association -- NC Bar Form Na. b BOOK 1006 PAGE 435 3810) EXHIBIT B GRANTOR'S RESERVATION OF DISTRIBUTION EASEMENT \000` SUBJECT TO AND FURTHER RESERVING unto the Grantor, Duke Energy Progress, LLC ("D�, its successors,, lessees", licensees', transferees, permittees, appo 11 rtionees, and assigns, the perpetual nght,`�rivilege, and easement to go in and upon the Property hereinabove-descnbed in Exhit biA hereof, and to constru electric poles, cab and other a 9 econstruct, operate, patrol, maintain, inspect, repair, replace, relocate, add to, modify, and remove or communication facilities thereon, including but not limited to, supporting structures such as wires, guy wires, anchors, underground conduits, enclosures/transfonners, vaults, and manholes, enant apparatus and equipment (collectively the "Facilities) within an easement area thirty (30) feet wide the overhead portion of said Facilities and ten (10) feet wide for the underground portion of said Facilities, ther with an easement area ten (10) feet wide on all sides of the foundation of anv DEP enclosure/trans o r,, vault or manhole (the "Easement Area"), for the purpose of distributing electri nergy and for communication purposes of DEP and Loca centerline of the Facilities shall be the centerline of the Easement Area. transmitting and 1 Exchange Carriers. The The right, privilege and easement reserved by DEP herein shall include the following rights: (a) ingress and egress over thee,,Oement Area and over adjoining portions of the Property (using lanes, driveways and paved areas where practi�l as determined by DEP); (b) to reasonably relocate the Facilities and Easement Area on the Property to confoe to any future highway or street relocation, widening or improvement; (c) to trim and keep clear from the Boiltuent Area, now or at any time in the future, trees, limbs, undergrowth, structures or other obstructions,, a Mo trim or clear dead, diseased, weak or leaning trees or limbs outside of the Easement Area which, in the opi ion of DEP, might interfere with or fall upon the Facilities; (d) to install guy wires and anchors extending bey�r�d the limits of the Easement Area-* and (e) all other rights and privileges reasonably necessary or convenient�or DEP's safe, reliable and efficient installation, operation, and maintenance of the Facilities and for th4Yment and use of the Easement Area for the purposes described herein. DEP shall not install Facilities7ultsi'de said Easement Area without obtaining another separate easement of record, except for those Faciliti*e.�Ahat may be installed as set forth above. Notwithstanding anything to the contr"' erein, it is understood and agreed that the easement herein reserved is for DEP's Facilities existing as of the z e of this Deed and also for Facilities to be installed at any point where needed on the Property, portions of 'ch Facilities may be installed immediately, and other portions installed in the future as the need develops. y such future Facilities shall be installed at locations mutually agreeable to DEP and Grantee. #7327308v3 NC Bar Association Form No. 6 O I/l/2010,2013 Printed by Agreement with the NC Bar Association YO X00 C• Ise This standazd forth has been approved by: North Carolina BZ3 ssociation - NC Bar Form No. 6 0 Y X TAX MAP A13-18 MICHAEL LUNSFORD PC. 1, PG. 24 DB. 1033 PG. 717 Tj TAX MAP A13-48 II DANNY EUGENE SMITH DB PB. N/A, PG. N/A DB. 1026, PG. 710 1,8: TAX MAP A13-50 JUDITH BLACKARD ROBERT BLACKARD PB. N/A, PG. N/A DB. 169, PG. 171 30' ACCESS EASEMENT PER DB. 169, PG. 175 DB. 169, PG. 177 DB. 169, PG. 184 A SURVEY BY MOORE, GARDNER & ASSOCIATES, INC. DRAWING NUMBER: L—F-6310 TO BE ABANDONED i TAX MAP A14-88 \ JAMES SUTTON PB. 1, PG. 10 \ DB. 923, PG. 20 TRACT 1 TAX MAP A14-147 EAST COAST INVESTORS, LLC PB. 15. PG. 397 DB. 1006, PG. 428 6.738 ACRES, 293525.47 SQ. FT. LU 1184663 • a m Know what's below. Call before you dig. 400 LAKE rma"■<<" a i"■" m���1 mmm SEE SHEET 5 OF 10 LAKE w P,TERSA1� w } COURT 60 PRNATE R/ 45' PRIVATE R/W / 'YOpCjAIL FOR \N 41 40 39 38 NA 45 37 33 ,LEAST LANE PR 32 \\ // 34 5' PRIVATE R/W 26 27 28 29 30 35 3s i // v 22 23 24 25 31 21 15 77 18 / 14 19 20 / • \ / 12 13 10 11 \ 8 s / \\ 7 uo. i ivu, rya. ova O 6 -� SEE SHEET 4 OF 10 100, M&C POINT #3 SEE SHEET 3 OF 10 1 / / -\ �'' 3 REBAR AND CAP / \ N=1,003,050.55' I 2 E=1,974,259.65' / \ ELE=458.34' NC GRID (NAD83/2011) , / ^ N. _ HYCO LAKE AV Ul �5 5p� . �-- SEE SHEET 2 OF 10 _ J CANE CREEK SEE SHEET 2 OF 10 TAX MAP A14-130 � 'Y� EDNA ROYSTER A \ PB. 9, PG. 34-5 -p DB. 241, PG. 143 � O TAX MAP A14-101 \ O NANCY MANDL MICHAEL MANDL PB. 13, PG. 821 DB. 509, PG. 661 TAX MAP A14-127 JAMES SUTTON NYDA SUTTON PB. 8, PG. 45-3 DB. 678, PG. 394 GRAPHIC SCALE 200 400 800 DUKE ENERGY LAND ACCOUNTING INFORMATION 1600 SITE: 104540 LAND UNITS: 1184663, 1184108 PROJECT (MAP): 104540-004876 CURRENT OWNER: EAST COAST INVESTORS 3129 SPRINGBANK LANE, SUITE 201 CHARLOTTE, NC, 28226 SETBACKS: FRONT: 25' (FRONT SETBACKS FOR FLAG LOTS SHALL BEGIN AT THE MINIMUM LOT WIDTH — SEE BUILDING ENVELOPE FOR EACH LOT) SIDE: 10' REAR: 15' REAR ALONG THE LAKE (420' NGVD 29 CONTOUR): 0' PROJECT AREA TABLE: TOTAL PROJECT AREA: 438.225 AC / 19,089,076 SF TOTAL AREA OF RW DEDICATION: 24.097 AC / 1,049,684 SF TOTAL AREA OF LOTS 1-89: 70.527 AC / 3,072,164 SF TOTAL AREA OF COMMON OPEN SPACE: 4.090 AC / 178,178 SF REMAINING AREA (FUTURE DEVELOPMENT): 339.511 AC 14,789,044 SF I, TIM VAN GELDER, PLS L-3660, CERTIFY THAT THIS PLAT WAS DRAWN UNDER MY SUPERVISION FROM AN ACTUAL SURVEY MADE UNDER MY SUPERVISION FROM INFORMATION SHOWN IN DEED BOOKS REFERENCED ON MAP AND MAP BOOKS REFERENCED ON MAP; THAT ANY LINES NOT ACTUALLY SURVEYED APPEAR AS BROKEN LINES AND WERE PLOTTED FROM INFORMATION AS NOTED ON THE PLAT; THAT THE RATIO OF PRECISION AS CALCULATED IS BETTER THAN 1:10,000; THAT THE AREA IS COMPUTED BY COORDINATE METHOD; THAT THIS PLAT WAS PREPARED IN ACCORDANCE WITH G.S. 47-30 AS AMENDED. WITNESS MY ORIGINAL SIGNATURE, REGISTRATION NUMBER, AND SEAL THIS THE _10TH_ DAY OF ___ MAY ______ A.D., 2022. I, TIM VAN GELDER, PLS CERTIFY THAT THIS MAP WAS DRAWN UNDER MY SUPERVISION FROM AN ACTUAL GPS SURVEY MADE UNDER MY SUPERVISION AND THE FOLLOWING INFORMATION WAS USED TO PERFORM THE SURVEY.• 1. CLASS OF SURVEY: A 2. POSITIONAL ACCURACY. H- 0. 07' / V- 0.10' 3. TYPE OF GPS FIELD PROCEDURE. STATIC/OPUS 4. DATES OF SURVEY. 1-14-2019 / 1-15-2019 5. DATUM/EPOCH: NAD 83 NSRS 2011 - NAVD 88 6. PUBLISHED/FIXED CONTROL: SEE BELOW 7. GEOID MODEL: 12B 8. AVERAGE COMBINED GRID FACTOR: 1.000092033 (GROUND TO GRID) 9. UNITS. US SURVEY FEET FIXED STATIONS UTILIZED FOR THE PROJECT. DESIGNA TIONS: DURHAM COOP CORS ARP REIDSVILLE CORS ARP BURLINGTON CORS ARP LOYOLA LS06 CORS ARP REFER TO THE NGS AND/OR NCGS WEBSITES FOR DETAILS ON THESE FIXED STATIONS SURVEY NOTES: 1. THE PURPOSE OF THIS PLAT IS TO PERFORM A SUBDIVISION OF THE FOLLOWING PERSON COUNTY PARCELS: A14-147, A13-51, AND A14-165. 2. THE DEPICTED SURVEY WAS DERIVED FROM AN ACTUAL FIELD SURVEY MADE BY THIS OFFICE AND PERFORMED BETWEEN JANUARY 2019 AND MAY 2022. 3. OWNER INFORMATION PER DEEDS AND PLATS OF THE PERSON COUNTY REGISTER OF DEEDS. 4. STATIC GPS OBSERVATIONS WERE MADE ON FOUR (4) MAIN CONTROL POINTS TO ESTABLISH GEODETIC AND STATE PLANE GRID COORDINATES (NAD83 NSRS 2011). THESE STATIC GPS OBSERVATIONS WERE PROCESSED USING THE NATIONAL GEODETIC SURVEY'S (NGS) ONLINE POSITIONING USER SERVICE (OPUS). THE VERTICAL DATUM USED IS THE NORTH AMERICAN VERTICAL DATUM OF 1988 (NAVD 88) BASED ON GEOID 12B. 5. ALL DISTANCES ARE HORIZONTAL GROUND DISTANCES IN US SURVEY FEET. BEARINGS ARE BASED ON NC GRID (NAD83/2011). 6. ALL AREAS SHOWN WERE COMPUTED BY THE COORDINATE CALCULATION METHOD. 7. THE LOCALIZED COORDINATE SYSTEM USED FOR THIS PROJECT IS BASED ON MCKIM & CREED POINT NUMBER 3 HAVING THE FOLLOWING LOCALIZED NAD 83-2011 COORDINATES AND NAVD 88 ELEVATION: N- 1,003,050.554' E- 1,974,259.646 ELEV.- 458.34' 8. THE AVERAGE PROJECT COMBINED GRID FACTOR USED IS 1.000092033 (GROUND TO GRID) 9. UNDERGROUND UTILITIES WERE NOT FIELD DESIGNATED AS PART OF THIS PROJECT. NORTH CAROLINA LAW REQUIRES CONTACTING NC 811 BEFORE ANY EXCAVATION CAN BE PERFORMED ON SITE. 10. PORTIONS OF THE PROPERTY SHOWN HEREON FALL WITHIN FLOOD HAZARD ZONES, REFERENCE THE FOLLOWING DFIRM MAP 3711907000J WITH AN EFFECTIVE DATE OF MAY 4, 2007 FOR FURTHER INFORMATION. 11. UNLESS OTHERWISE NOTED ALL NEW IRON PINS (NIP) WERE SET USING 5/8" REBAR SET FLUSH WITH THE GROUND. 12. THIS SURVEY WAS PREPARED WITHOUT THE BENEFIT OF A TITLE REPORT AND IS SUBJECT TO ALL EASEMENTS, RIGHTS OF WAYS, AND OR ENCUMBRANCES THAT MAY EFFECT THIS PROPERTY. 13. LAKE BOUNDARY LINE FOLLOWS THE 420' (NGVD 29) CONTOUR LINE. 14. A HORIZONTAL CONTROL MONUMENT OF A FEDERAL OR STATE AGENCY WAS NOT FOUND WITHIN 2000 FEET OF THE SUBJECT PROPERTY. 15. DELTA ANGLES ARE LISTED IN DECIMAL DEGREES. 16. THE SUBDIVISION WAS APPROVED FOR THREE SUBDIVISION VARIATIONS BY THE PERSON COUNTY BOARD OF COMMISSIONERS ON 12103118 INCLUDING THE USE OF FLAG LOTS. 17. SUBDIVISION FLAG LOTS ARE AS FOLLOWS. 1, 2, 3, 6, 15, 16, 17, 18, 19, 20, 31, 37, 38, 42, 43, 47, 49, 70, 71, 72, AND 73. 18. THE CURRENT ZONING IS R (RESIDENTIAL). 19. WATER USE LINES (WUL) INDICATE THE DIRECTION A PROPOSED DOCK MAY BE CONSTRUCTED. THESE ARE MAPPED FOR THE PERSON-CASWELL LAKE AUTHORITY AND WERE NOT REVIEWED BY THE PERSON COUNTY PLANNING DEPARTMENT. 20. LOT FIT ANALYSIS BASED ON THE PERSON-CASWELL LAKE AUTHORITY GUIDELINES FOR THE USE OF RESIDENTIAL PROPERTIES AT HYCO WITH AN EFFECTIVE DATE OF APRIL 9, 2020 BY PERSON-CASWELL LAKE AUTHORITY AND DUKE ENERGY. I, _ _____ __ ____ REVIEW OFFICER OF PERSON COUNTY, CERTIFY THAT THE MAP OR PLAT TO WHICH THIS CERTIFICATE IS AFFIXED MEETS ALL STATUTORY REQUIREMENTS FOR RECORDING. DATE PROFESSIONAL_LAND SURVEYOR Vvvv I HEREBY CERTIFY THAT THE SUBDIVISION PLAT AS DEPICTED HREON HAS BEEN GRANTED FINAL APPROVAL PURSUANT TO THE PERSON COUNTY SUBDIVISION REGULATIONS. I, TIM VAN GELDER, PLS L-3660, CERTIFY THAT THE SURVEY CREATES A SUBDIVISION OF LAND WITHIN THE AREA OF A COUNTY OR MUNICIPALITY THAT HAS AN ORDINANCE THAT REGULATES PARCELS OF LAND. --------------------------------------- PLANNING AND ZONING DATE ADMINISTRATOR ATE________ LEGEND CF COMBINED FACTOR AX 0 AXLE STONE IRON PIPE FOUND OIPF IRF IRON ROD FOUND 0 SET IRON ROD (#5 REBAR) 0CMF CONCRETE MONUMENT (FOUND) COMPUTED POINT fj POWER POLE C.O.S. COMMON OPEN SPACE AC ACRES WUL WATER USE LINE PROPERTY LINE ADJOINER (NOT SURVEYED) CL CREEK / STREAM EASEMENT (AS DESCRIBED) — R/Mr RIGHT OF WAY v v SETBACK LINE — ZONE AE FLOOD HAZARD LINE (413' NAVD 88 CONTOUR) NO WELLS ALLOWED (WITHIN 100' OF SPRAY SYSTEM WETTED AREA) SEE SHEET 9 FOR LINE AND CURVE TABLES. ( IN FEET ) 1 inch = 400 ft. N: 1004613.95' TAX MAP A13-18 MICHAEL LUNSFORD PC. 1, PG. 24 DB. 1033, PG. 717 JU. Know what's below. Call before you dig. 'O DO N J IPF IPF E: 1971964.84' BOUNDARY LINE HEREBY ABANDONED Sp .� (83 1 S7 44 �5 Q` Mq Tit N£ S££ iTp igC � 60• SN££T 3 c210 C20� r� 30' ACCESS EASEMENT PER DB. 169, PG. 175 DB. 169, PG. 177 DB. 169, PG. 184 A SURVEY BY MOORE, GARDNER & ASSOCIATES, INC. DRAWING NUMBER: L-F-6310 TO BE ABANDONED 378.02 TAX MAP A13-48 DANNY EUGENE SMITH PB. N/A, PG. N/A DB. 388, PG. 195 IPF / N J / IRF IRF nI 00 N J IRF N88°30'24"E 63.73' o C20s �/ L306- 1 EXISTING VARIABLE WIDTH ACCESS EASEMENT BOOK 1006 PAGE 449 I PLAT BOOK 15, PAGE 399 30.00' / I I mLj# Q Z Q i L297 c� O\ ^ 1b �rn L290 ;0) M' cry o rn rn o . FUTURE DEVELOPMENT L293 N: 1001554.73' E: 1971299.0� CM C202 o L285 /-C203 IPF I I I I GRAPHIC SCALE 150 0 75 150 300 600 TRACT 3 TAX MAP A14-165 EAST COAST INVESTORS, LLC DB. 1003. PG. 428 389.588 ACRES 16,970,447 SQ. FT. LU 1183625 LU 1183601 LU 1183559 LU 1183749 LU 1183742 LU 1183673 98 30.00' 20910, (25487')*� 14��E: N: 1003463.16' 289 1971925.41' Ott INC S££ ' SH££T 3 60' TRACT 2 TAX MAP A13-51 FUTURE EAST COAST INVESTORS. LLC DEVELOPMENT DB. 98, PG. 345 DB. 660, PG. 599 41.899 ACRES 1.825,104 SQ. FT. LU 1184108 TAX MAP A14-16 I DAVID ROYSTER & OTHERS PB. N/A, PG. N/A DB. 115, PG. 436 I ZONE AE Sp0 58 H 3gW 1270 39 IPF i / N / J / / IRF WA T pRs1gIL RIvATE/W R AY l IRF j 03 W / NO2 30'20', M . Ada/ 126 19. N / 02 °1� —1NO2 Sp2gW251772,(roTAL 0"E 1267 19, IRF �! / / co N88°30'24"E 63.73' ^� C2j4 L284 L306 TAX MAP A13-50 T ` JUDITH BLACKARD V , ROBERT BLACKARD PB. N/A. PG. N/A EXISTING VARIABLE WIDTH DB. 169, PG. 171 ACCESS EASEMENT \ \ N: 1001554.73' BOOK 1006 PAGE 449 �093 \ E: 1971299.0 PLAT BOOK 15, PAGE 399 304 F CM 2S � C202 r F I Z L285 C203 J 0 I rU A IP W NC GRID N.qD I � � 83�NSRszo,,J I I I O I orn a� �O 03 � n 10 T TAX MAP A14-16 DAVID ROYSTER y & OTHERS TAX MAP A14-101 PB. N/A. PG. N/A TAX MAP A14-130 _ _ _ _ _ _ _ NANCY MANDL "1 C� � MICHAEL MANDL DB. 115. PG. 436 DAVID ROYSTER r PB. 13, PG. 821 A ROYSTER PB. N9. PG. 34-5 \\ DB. 509, PG. 661 DB. 241, PG. 143 \ O 1 V E TRACT 1 TAX MAP A14-147 r STE wp.� EAST COAST INVESTORS, LLC -A l OF PB. 15, P G. 606 — R/w - 1?0 �E R�GN C. 'AC 6.738 ACRES, 293525 SO. FT. JEFF RD. �a 0(; K o+ pR\� 8, 8, p .G `#1 LU 1184663 30 ACCESS ROAD PER PB. 9, PG. 34-5 CMF L287 1 " 5 pER p L286 921.50' O L288 S10°47'10"899.91/ S23'02' 45" E cD rn E' CMF TAX MAP A14-127 CMF C201 JAMES SUTTON WATERSAIL WAy NYDA SUTTON 60' PRIVATE R/W PB. 8, PG. 45-3 30.80' DB. 678, PG. 394 C204 N10°46'41 "W g82 48' N21-2509,.W 964.03 \ IPF C.O.S. 10' X 70' SIGHT TRIANGLE PER PB. 15, PG. 397 1.61 AC. \ 1. DB. 660, PG. 613 TAX MAP A14-88 JAMES SUTTON PB. 1. PG. 10 DB. 923, PG. 20 LEGEND CF COMBINED FACTOR AX 0 AXLE STONE IRON PIPE FOUND pIPF IRF IRON ROD FOUND 0 SET IRON ROD (#5 REBAR) 0CMF CONCRETE MONUMENT (FOUND) X COMPUTED POINT A' POWER POLE C.O.S. COMMON OPEN SPACE AC ACRES WUL WATER USE LINE PROPERTY LINE ADJOINER (NOT SURVEYED) CL CREEK / STREAM — — EASEMENT (AS DESCRIBED) R/W RIGHT OF WAY — — SETBACK LINE — — ZONE AE FLOOD HAZARD LINE (413' NAVD 88 CONTOUR) NO WELLS ALLOWED (WITHIN 100' OF SPRAY SYSTEM WETTED AREA) SEE SHEET 1 FOR NOTES AND LEGEND. SEE SHEET 9 FOR LINE AND CURVE TABLES. ( IN FEET ) 1 inch = 150 ft. IPF N: 1004613.95' E: 1971964.84' I I I I I N I H— W � rn J � �I w J • Q � �I ;n BOUNDARY LINE HEREBY ABANDONED of L297 / 30' ACCESS EASEMENT PER DB. 169, PG. 175 DB. 169, PG. 177 C27 1 C210 0 \ \ C209 0 L289 N , F- w w 2 w w w z J , 2 Q AX DB. 169, PG. 184 A SURVEY BY MOORE, GARDNER & ASSOCIATES, INC. DRAWING NUMBER: L—F-6310 TO BE ABANDONED N85°59'37"W 370.85' 185°59'37"E 370.85' N: 1003463.16' E: 1971925.41' 0 v WATERSAIL WAY 60' PRIVATE R/W 0 5 FUTURE DEVELOPMENT LEGEND MATCHLINE SEE SHEET 8 CIF COMBINED FACTOR AX 0 AXLE STONE IPF IRON PIPE FOUND 0 IRF IRON ROD FOUND 0 SET IRON ROD (#5 REBAR) �CMF CONCRETE MONUMENT (FOUND) 3sE COMPUTED POINT �f POWER POLE C.O.S. COMMON OPEN SPACE AC ACRES WUL WATER USE LINE PROPERTY LINE ADJOINER (NOT SURVEYED) CL CREEK / STREAM — — EASEMENT (AS DESCRIBED) R/w RIGHT OF WAY SETBACK LINE ZONE AE FLOOD HAZARD LINE (413' NAVD 88 CONTOUR) NO WELLS ALLOWED (WITHIN 100' OF SPRAY SYSTEM WETTED AREA) GRAPHIC SCALE 100 0 50 100 200 400 m Know what's below. Call before you dig. ( IN FEET ) 1 inch = 100 ft. 5.23, N86°01'50"W 379.52' S75°37 23 W 1g WATERSAIL WAY C319 311 53, 60' PRIVATE R/W N75°37 23„E S86°01'50"E 379.52' C0 C217 N89°53'21 "W 1961.58' TAX MAP A14-16 DAVID ROYSTER & OTHERS PC. Ill PG. N/A DB. 115, PG. 436 S75'37'23"W 21.30' ti1gTC,N °37' 3 o 4NF SE 45.0 C37 C310S21° 00,74.,w C218 �768 S9, ` 91.83, 46„ 98 60 • P/w q� jL rATA Y �0 S 48 S� 6 F N2100'1� e R/w S 00 ` #4 97. 83, S68 S9 4 , o N68 S , 6 617 `37' 9 46 "w ' 2Z3 33' / / FUTURE DEVELOPMENT / / 30' PIEDMONT ELECTRIC MEMBERSHIP CORPORATION RIGHT-OF-WAY J / IPF j N88°10'09"W 598 31' CENTERLINE I r- OF CREEK \ / (IRF N J \ L279 IPF I — — — — — -- I I � I � I I TAX MAP A14-6 B E CANDICE DIXON PB. N/A, PG. N/A DB. 229, PG. 261 � I I I I I I I I I I I i C300 _ C219 IPF L276 TAX MAP A14-136 EDNA HAMLETT ROBINSON & OTHERS PC. 13, PG. 214 DB. 418, PG. 747 29 04, 255.61, N7 8°11' 24„ E z 0 0 w w C,4 v J Cn Ln Cn 00 0 I � IPF v 0 C2i M'S \20 (Y S13'06'49"E 33.93'—/ �2 'Y s FUTURE DEVELOPMENT w W to w w �w z J U H Q 9oo S89°26'23"W 83.45' I TO 0 CA C,i Ga J m ,N (10 N C o o � N N N cn v? o r*i w 00 CA P 1I 41 \ 114 G , 4 cri 1.01 All ,- S25°50'59"E 12.97'- SEE SHEET 1 FOR NOTES AND LEGEND. SEE SHEET 9 FOR LINE AND CURVE TABLES. 10 eas mmam MNIIIIIIIIIIiiIi 1 _ sammommom SHEET 6 - MA SEE- rn O Iso e20,22'W 45 g1 00' S83.26'01"W 361.44' Y N13 3a„w 240.3g' C291 WATERSAIL wA 6 39 60' PRIVATE R/W 0*4��3.54 49 E C292 S� C236 N 45 p N83°26'01"E 361.32' �2p'22 E C298 C235 ' N,6•39 3$„� 293.42 5a � 3g'I o2 C234 FUTURE DEVELOPMENT MATCftftH�,Nf S� IPF N ' 56�.2A > j �� 0�� N �--=1.46-_ --- IPF IPF MATCHLINE SEE SHEET 5 �82 a2 C29g N6�•2� 5a E v� 1,24„E 255• N-j8'1 N13°06'49"W 35.96' S13°06'49"E 33.93' 45 C� s� N45°33 01 W 33.48 S45°33'00"E 33.65' 0 > 0 0 t7- Co r 0 rn � ➢ a rr1 � m r L C14 W FUTURE M DEVELOPMENT w N O = NUI A5 w w 0 > LQ o� o� FUTURE DEVELOPMENT � !u n 0) d 16 2.34 AC. 2 ; ►�8�17' �3'f 00, s, ass o. �F` S88'51'04"E 60.58' \ 59.70' 1 \ S62°40'27"E 54.05' r ' 5.97"55 �y S89'37'54"W � / n N63 9639, 9 F• IPF N 206.�`\`` 41 I ! 3.75'�. j' ZONE AE `O \ 1.54 AC. �0- N86'09'20"W 40 r 3g �� A36.39' 45 ,�°s, 0.58 AC. 0.50 AC. F� IPF 62b0 N78'32'30"W /• 3 S05°48'23"W 57.38' �' �; �24 O"!fi 54.31' N05°48'23"E 57.46' , 0 38 2>> FUTURE �'�-_J 18.01' �� C29 \� 0.52 AC. IPF iPF DEVELOPMENT 0jjjjj�jjjjj�C244 97.54' - 4' N#00'53"E 30.07' ^ o U N C21 C22 428 C31 WUL3 v L425 L427 N /;----------- ------ ---3 CO A�LO��T ,6Q33 50„W 696 29 �19 $i �9 = = C C24 L426 'C2 C26 U N85°43'45"E 47.38' N18'41'15"E 48.00' Tu , PR�VAIE 37 Raw S , `101AUi \ \ ; 3, 49.66- ,,� i'/ 0.59 AC, IPF � N71'18'45"W 16.90' � 45 0"E 6g6.2g � It 32 33 \ � ; C- �-_� � 124g E N�6.33'S pp -_� \ 0.63 AC. \ c� 0.60 AC.140 34 \ 0' Sp �, \, ,�, s� 1 0.59 AC. '� 0.50 AC. \,. 0.50 AC. s\` 66gg IPF C245 80 p0, g0;� il, �I '\ `1 \ ,\ a, 9j 26.25 1g / . 1 \ cam+ y CD \ L2 C1 423 C1 XO 0'�- IPF\ N 3sGc: - ; \ \ ; \ �' \ \ \ ; \ 6p S49.T",57"W ZONE AE _ ' \ w, N82°28'18"W \ g� I� 52.34\� / 41.74' �---� S5'37'29" \ \ \ \ \ \ \ \ r' \ 67.73' \ \ I , \ 0�. N r , c> i \ \ 1 36.70' it ; �\ ; ; \ '\ o ; ; 1\ \ !, 1 15.90' p , N / \s ' S85°29'31' \ \ \ ' \ \ "� rn IPF 50.0 5.87' 8 g rO \ _ `° 62.66' \ \ ',U IPF 1 , , us SO4°30'29"W 62.01' J-� 30 ` 0.95 AC. �00� I �2231 it ,`222 �- , , , t0 ,. , , , ! - >. C242 �� \ \ \ ; �, �, ' ' w o, , \1.03 AC. ' \ IPF \ .I IP C243 28.36 \ v, y, a 0, �h�i r�1 , \ ; 1 \�z \ \ \ ; h " \ \ 5� 5°48'51 "E IN \ 0� N87'09'31»E cr \, \ \ \ w 0p rh \ ,, \ ; \ \ 1, 6�.Z7 I� . \` 29 1Lp Cp I 1, � � \� > 28 ; �1.13 AC. \ ; \ �4 �� \ 17 �6k ,� C�2 C13 ; ; \ 26 27 ; `1.20 AC. �0 bg `'' \ \ 24 \ \ 25 ; \ \ \1.19 AC. \ Od 1.05 AC.,, 0 �A ( �`,1.15 AC. ; ; , t \ \ �1 CAI w R 40 `� \ \ ; 1.24 AC. 1.19 AC. \ \ \ \ \ \ \ �• �1 pj of � r" \ \ \ ; \ \ ; \ L429 IP� °`1 \ ��' ^ ^ ;� \ ` \ 23 1 ; ; \ ; ; \ \ \ ZONE AE , S28'18'14"W 15 I ml `�' 18 `�' `' \ 22 ,' \ 1.19 AC.\ �' ; \ �� \ �' \� ; ; \ \ ; 66.31' 0.50 AC. IP ( 0.78 AC. 1 00 �'` \ 111 .40 AC. \ \ \ \ \, � \ \ \ \ ; ,, \ ; ; ;PF/ sc N c9 ; ' \ , \ ; ; \ \ \ ♦ S2 14 01 W , It 1 C.C] N ; \ , , , , , , , , Lp 91 N , 1 , \ ♦4 1 �CPF It Co 1 \ \ ` I IS3'29'19"W I can - m ; 21 1 1 I \ ; \ 1 \ \ \ qn , �_ \1.05 AC. , , , N , \ , 0 �• IPF � 60.61' � 1 , 1- ItI I \ , � � � ti \ � \ \ � \ \ C 1 s , ` moo, �` \ \� � Ip > �� w N ' \ 19 I� I0.79 AC., ! ` \ os \, \ \ \ \ \ , IPF / n �C �, �' �y �, �� r'> �� \ ,0.75 AC. \ �' \ IPF I 0 ; cn \ IPF ��� �/ PJi� �`' \ \ \� \ ��v'�3- IPF N I I I I I �1 /y \ \. G `� p( ``c 13 18.32 N \ o. rat ``� I I i' 1 > N78'24'04"W S� 6 �G�RI� 066 Op \ �\ 0.70 AC. \. ♦ ; \ °�`'� a I �, \ I ; �= 1 Ic \ \ 0 48.50' ti 12 `�' ♦♦ IPF ' �� .yam I s \ \ \\. of ,n \N �Q` 24.91' IPF b �V��JP `L \ ,0.71 AC. \ \ IPF �( \ ^ I w �; \ rn ;� P rx P� �� 0 6 $ \, / G \ I /q �- �' \ �. ! / 1 \ 35.22' \ y6'29'51 "W C'�O �`� �6 61 ti6 0 00/\ \� \�` \�` \`, ``� \�� ``\�``\S� ���`, ♦ �; A S SRQ� i w `� i IS38°2 6'8 8 N \ 1 ' 46. , '� ,35.83 I P �`` / 66r 09' ♦ S 8 C . w 'MID c�io� Ui . 83.62' 4 � .26 N a \ \ \\ rr, S)% I IPF c,r i - O� 1PF 1 L236 t \ \`!y 00 W \ I IPF \, \ ! �0�`' �- I IPF I L424 / ♦ 1 1 \r's 24.71' \r >o >�p "�� I I I �,1 ♦♦G 1 �, 1 It Lr)1 c u I 10.00 / �' 1 1 1 C` 1 N 9 ♦ ID C225 10 o. \�� \ \`. \ `\ 0.98 AC. O ♦ I \ o \. \. 11 \ � � ♦ G � � 9 I 1 19.83' I \ 29.52' � $�' � \ ZONE AE S89°26'23"W G� <� ,,�403 \ \ .\ \ \` .\ `\ \ \ \` \,� 16.07' \ ♦�.`� r \P �i �4 2S � 1.30' 10 , \ ZONE AE �/ 243 63 23 IPF 1 \ zo 83.45' `° \ \1.34 AC. \ \•� VPF I�� / f I L2 o ro 3A O° 45' \, V� "� \�` \ \`. 9 \�� �` \ \\ N$94'5X"W 87.44' i ��0 \ IPF c2 \ \ $ \1.17 AC. c \ \ v S60 kg1 \ 9� \ \ d�• \ S12°25'08„�V 73.58' %\ I I IC � � 1.14 AC. ` �. %n r s 7 \ \° y S�Z1� IPF' \� �\ 101 IC 1� cn c'CIV0 NAC. G I J I r cn cn 0 cn 4c `� ��,°, \. 1.25 AC `\ S CD o J `° v0 1.01 AC. `'h �; W, �" ` O >s o N o m ,- S25°50'59"E PF \.` \ \ \� 9�' F IPF♦ D m w C0 12.97' \ ,� \ Ss N o 9, �` \ ` \ `, \ \ \ \.� IPF cn c11 v'° Z�. CIO IPF \ S. \ � , �, U I CID No 1 `ram. A IPF 5 �� ` ` \ ``\ \ \ \ 0 N cn a o37,, 1.04 AC. `, ck '' ` `, 00 v? o F �, ZC z \ `, \ \,` `\ \ \ \ N d La LA r1i 2 ,�� -- --, 1 a� n� % Q. 'd 1\ \ �5 9 IPF I 1 10.85 AC.' r i P I Qs- \ \ 7.09' ZONE AE i 0.94 AC. I ItT AC. I I r" \ �z IPF ' ; \ \APF \`` \ \. \` I3 6n 61 1� 70, 81 13 I P F co v'p° \ LSD, RSOtCo Lp \`/�G , �I To- IPF\� \� �r IPF \ i IPF I� N21'40'09"E i � 89.19 \ i� I� F 113.70 81 67' \IPF •� j 74.05' ' ' 66.69' �273 IPF 15°42'41"W N30'34'15"W' IPF L2 4 IPF j \31.33' 31.97' I \ `L ZONE AE I CI ICA N� ' GRAPHIC SCALE 100 0 50 100 200 400 m Know what's below. Call before you dig. ( IN FEET ) 1 inch = 100 ft. G� P� 56126 HYCO LAKE CF COMBINED FACTOR AX 0 AXLE STONE IPF IRON PIPE FOUND 0 IRON ROD FOUND OIRF SET IRON ROD (#5 REBAR) �CMF CONCRETE MONUMENT (FOUND) COMPUTED POINT A POWER POLE C.O.S. COMMON OPEN SPACE AC ACRES WUL WATER USE LINE PROPERTY LINE ADJOINER (NOT SURVEYED) CL CREEK / STREAM - - EASEMENT (AS DESCRIBED) R/w RIGHT OF WAY - - SETBACK LINE - - ZONE AE FLOOD HAZARD LINE (413' NAVD 88 CONTOUR) NO WELLS ALLOWED (WITHIN 100' OF SPRAY SYSTEM WETTED AREA) SEE SHEET 1 FOR NOTES AND LEGEND. I SEE SHEET 9 FOR LINE AND CURVE TABLES. " lJ -, HYCO LAKE Ej C VICINITY MAP HYCO LAKE {NOT TO SCALE) � 76 7 / &7 C50 60 PRIVATE C72 <gg ' 1�g� S>35323E C263 47 Caa -'/' �__----1, C--------� �__�__ _ RAW S85`46'36"E 332.34' (TOTAL) C71 g9 / _ ari 72 < 6ggi,,^ �;5,7T59'47"E 1 -�_ IDS 80.07' 80.07' 80.07' 70.5)' 51 C52 L476 C,0 L '- -----� '�.37 2 0.50 AC.24.83' w N C254 cgs G \'` �, ; 21.58' j� r--- �- -I1 j�_ 9 C53 C69 C68 45.67 6 C65 c6� h N. `` \, \ \` I, I I 1 I- - L463 C67 1475 C6 c� N82'00'38"E N891-2'-S 1 I -6-g6_ 48 C54 w 1 M, - - E IPF C55 89.48'_,-----WUL72 C62 S17'32'08"E 27.73' �;_ v' �,, c} n rf,+, , C56 C57 C166 64.96' 58 C59 �� S 71 )63 45c� i 57 �h,r� `,�j ' ' __ N89"38'27"E C60 >039Sol, 0.50 AC. CO L �� 55 ; 56 I 0.63 AC. `�''�,, FUTURE \ �C; ; 1 0.75 AC. I , Y' It----- o� IPF DEVELOPMENT v 0.93 AC. I 58 ' I 62 I J`w�---'' 3j. cN 54 I 0.50 AC. , °;� cN ,r,�' 70 R> \, \, 1 , 0.56 AC .� 59 60 I 61 I 63 "' 0.50 AC." \ 1.02 AC. I i I I `�' w c� `' � p cb <r `� C'; � `� 52 53 % I 0.64 AC.I I0.63 AC.I , 0.58 AC.� 11.67' 0.50 AC. { I `�' c� `v I 69 un \` 19.00' I (0 S47`55'58"W 38.68' 1.10 AC. \� \` 1 19.79' IPF 3 �0.56 AC.' y 0.90 AC. � � 1 I I � � I � � 65 I I 66 �& 0.50 AC. .. w VP �� , �\ \ �, , IPF ' ' ; ' f 1 67 `�cs, w '� . , I I 23 , 7 32' , 0.50 AC. 0.50 AC. , , g� x .� �, / 6 IPF ' 0.51 AC.. \ `, \ \ ' 30.33' I I I > I , 68. w \,kph ,�� \ \ ; 1 �� �78 I I ' I I 0 52 AC IP w STARBOARD POINT mot` �� �'�' 1 0 �`: S43 \ 13.03' a \ IP 21 IPF u' ' I �� F In �p , 1 ' ' 13.82' L177 '48'25"E \ �` , 1 ; 1 1 ' I I 5.28 I > ' 37.73' I IFJIF w , C258 45' PRIVATE R/W C25 G ck1 '°c\ , 1 \ 1 I 1 \ i I I I 58.32' z_ < \ J °� S88°12'23"W 249.00' ° `v \ 15.65' 1' I -� � 25.65' � � '� � � � ; o `I `• � / co • I 15.34' x rL� G3 u? ` \ ,` \ 1 I c . I I .1 5 I i CP I I ' ,66 74 ; , I I Og 1 \<� G 1 ,per �\ I PF 88 $ fPF . 1 3 , , 18.12' , �• I� IPF \ o Q C38 ,/' \ , %�` .` ; \�G 1 / 4' g3.88' L1� �` �.68' , 5 Ic- � ch L184\ < 1 / \ IPF \ C36 N88°12'23"E 249.00' (TOTAL) C37 c \ \ \ 7 rn ` , � `, ' \ `ram L1B0 L179 \ � � � 6� �. 60.6 74 IPF ;L173 � )21 76.16' � �"5k'S �� \ N82`04'38„NI 67.�8' C35 a --� N -' \`� ,, 1.03 AC. ` \'` `� ` �� 24.48' \� `� �0�� IP i 4.0 IPF �G�� ��>Ip� L171 N52'34'18"W 45.43' 73.57' 123.16' 52.27' n� \ < �Nv 1 \ I 1 PF 1 I �' 1. \ I. 1 / S54°49'55"W 57.26' N34°50'15"E 16.23' 33 G3 N ------------ �--� r o ,� � � � 32.36' � � �, I . \ 6' � IPF I �- � 1 . f- I 4.26' 1 /3 \G ` 1� I ; I , fi , , 1 1 L�851 / \r \1 50 \� 1 / 1 ZONE AE I CD rn I -� \ < 1 r N49°35'31"E 70.13' N'. $ I I I ` ` 1 1 1 1� \> I� \rn 1°�' Ic ,,y�, ; ;0.79 AC. `� 1 IPF ; L18% �; I HYCO LAKE ; ` I 10) v ^ cl? 45 I I ' I ' �� • \ 1 �68a32'T6"�t�t 69.43' 1 LpI I ZONE AE \ 1 100 co rh �` 0.63 AC. rn I , �� �� j S33 47'43'IW 42.85' �G rn 44 \ C,, rhj' �1 \ t S4'03'50"0 63.23' (J =ry�o m 0.81 AC. �! j �yy ' \ `, �` �` `�\ \o�' IPF/1�cr ` 1111 I F- rF ry� \ W Cn -P N14°12'57"E 39.12' ,, S26'57'45"W �p� >o I �0. 46 I \ \ � 64.7PF q'P� Q' 65 AC. I ; ,`� \'` `�, 11�� IPF I f I 47 ' ; 1 ` 49 \; ;\12.65' 46 IPF•\\\�z 43 �� 0, ! 48 \, 1.02 AC. � \ 091 / \ < ° �,, 0.71 AC. ` N 2� �o I, I I o.82 Ac. '1 0.97 AC. ; cD IPFco � ' I I 1 ! \ `\ S36'22"W 78.22' S9'13'42"E 50.65' 9fill .0 \ N / 47 "� AS ; /� 96 22 g4� �� K 7 N6g19PF IPF \`, 7.841:0� i �J \ / 45.86 1 124.57' S °g� G 42.37 63,0p 8°k��o`���L(i ZONE AE i� \ IPF ; L195 IPF 63.04' 100 If IPF 61 I t / o/ h \� �/ ZONE AE 13.3.46= -_ '---- \ IPF L2093 PF MATCNUNE SEE SN/ ` \, 59.701 I 102,55 L�101 S MATCHLINE SEE SHEET 4 4 r 5.97' DATE REVISION INITIAL v v MCIED,4&CREED GRAPHIC SCALE • 100 0 50 100 200 400 8020 Tower Point Drive m Charlotte, North Carolina 28227 Phone: (704)841-2588, Fax: (704)841-2567 Know what's below. F-1222 Call before you dig. ( IN FEET ) 1 inch = 100 ft. Internet Site: httP: //www. m ckim creed. com IPF IPF N89'32 09 EIPF S> ° 1 HYCO LAKE 88 53' 1035'°"E LEGEND cob.. o. I p . 90. ?F C COMBINED FACTOR �AX STONE"1 0 AXLE I F " '2�4 oIPF IRON PIPE FOUND `o° �S2 40IpF N83°6„E �j oIRF IRON ROD FOUND +�j rn IPF S7g 02' \ t �,, SSA j) IPF 92.07 >N-D SET IRON ROD (#5 REBAR) coo F. 1°2 36„E � SS., / o> u'�\ ■ CONCRETE MONUMENT (FOUND) 5 44' IPF S,\ : �i7.. F o o� CMF ZONE AE I F� �' jg( COMPUTED POINT 9 so�'�. I.PF �ls'o� IPF � IPF IF F IPFI POWER POLE C.O.S. COMMON OPEN SPACE �h o �o > w AC ACRES �. Lp L � �o IPF N of WUL WATER USE LINE 0 CA " N IPF PROPERTY LINE i F`s��° N Ip r*. 71 `� IPF N ADJOINER (NOT SURVEYED) IPF S>rlF. I _� ^� �o , CL CREEK / STREAM N7bI1�� 5 57 �p EASEMENT (AS DESCRIBED) A po' IPF C0 R/W RIGHT OF WAY n IPF � / ZONE AE N04°19'14"E / - - SETBACK LINE 160.55' I N0733'57"w IPF IP 85.63' p� - - ZONE AE FLOOD HAZARD LINE (413' NAVD 88 CONTOUR) ti 6, _ S39°03'18"E HYCO LAKE b cfl o, 52.62' o IPF ho Q' w rn 'I� A ��� NO WELLS ALLOWED (WITHIN 100' OF SPRAY SYSTEM WETTED AREA) b IPF 00 w S30'19'36"W IPF -� 86.42' l 100 01 I � IPF �'�I � I � 1 I Q5�% ZONE AE w1 < 13g: _ I001 S79°05'33"E �" r' I L143 3'pF �I 56.36' ^�/ ��/�\ IPF 1 �1 a�01 146 106.03' \�J�i �� IPF i j 1 001 , S34`0T47"E IPF �� d �p �� i \ qo A� � 1001 \ FUTURE 66.18' 13.02' I 5s,' Ai �`�� 0 i 7�' EE- �I 31 Jj / If FUTURE / DEVELOPMENT �, 24.17 I IPF 1 I �1 N�2°28'30"E IPF �; ' , , I 47.76 8 57' �c 1 1 �1 / 72.48' 6'\ "06 � ' I �' I I I 36.95' 49 �I N32'34'56"E I �nCO k37°46'51"E i i I 43.59' i i i i �32.36' i 84.°2• 1.s 66.2301 IPF,L*52.1. IPF<1 i3 PA. 85' i r S m 89 I 1 ' 7 I 60.91 I S5 °4�`3` IPF ^ , 75> ZONE AE 0.57 AC' 88 I ��� o� 1 26.78' s- -j1 6'66' i� ' 0.59 AC., 87 S 1 I I 1 86 85 84 1 !� `'o 1 IPF f 0.55 AC.1 0.50 AC. 10.58 AC.1 10.60 AC.i 83 I i I ' { ,off 1 I ' ,' 9 IP co �, I , 0.54 AC.I 1 82 , Ip, I �N' >0 1 I 1 ?S / i `� o iJ, I I i '0 .52 AC i 81 I I T '�' / I 9.51' ,�i m `� ''' �, , 0.50 AC. 80 I f 5.99' I > S82°35'26" �' T �v ``' I 0.50 AC. I 79 I I ;' z I 74 p `ram 1 „V I , , q m cr 1 'n !p , , , I , , I �p , I cr I P F 0, 45.85' �0 1� --J I °n f r� `� "o ;N 50 AC. •19 __ a, ,,, , 0.53 AC. 78 p C264N� g.20' ��pr'' �, /0.55 AC.' 7' I I �c/�; <1s C271 n1j35 S C164 C78 C77 �__J yr S'v �°� S? ' 4h % I n� 76> ° 323 W 333 C323 C76 L487 C7S 80.00'-J-----J y 77 76 I I p � i .g9, 4j E 5 C74 80.00' 80.00' .7 %__ 0.50 AC. 0.51 AC.' , 73 4.1 S65'41'02"W 38.11' C253 C262 N76°35 2a 32 70 5 q3'W C46 C47 C48 N 1�7ERSAjL yVA (80.00' n % I I 75 I 0.50 AC. 51 Ca5 C49 1 i N85'46'36"W 332.34' TOTAL) C73 4$g' _' gi ;�' 0.57 ACj PRELIMINARY PLAT: NOT FOR RECORDATION, CONVEYANCES, OR SALES DATE: 165 ZONE AE FINAL SUBDIVISION PLAT OF THE POINTE AT HYCO LAKE FOR EAST COAST INVESTORS, LLC DATE: 04/14/2022 SCALE: 1" = 100' CUNNINGHAM TOWNSHIP PERSON COUNTY NORTH CAROLINA SEE SHEET 1 FOR NOTES AND LEGEND. SEE SHEET 9 FOR LINE AND CURVE TABLES. PROJECT # 7666-0001 PROJ. SVYR WAE DRAWN BY PAS, JLM FIELD BK. N/A COMP. FILE THE PENINSULA AT HYC SHEET # 5 OF 9 DWG. # : 7666-0001 SUBDIVISION 15- Know what's below. Call before you dig. ,"EAPF �93 N6a A � IPF 10 , IPF/ Iz 0 w J N 41 IPF 3 o N45'33'17"W o 41L 56.62' IPF IPF IPF w CD- S80°34'23"E rn n 41.55' Lnj 0 z w o� �o T00 z �z Jk IPF _N12'33'53"W 103.63' IPF W T Ld W I W z J U H Q N70°O3'19"E 42.98' N89°38'03"E 73.2,-,4— .IPF O F 1 N86'37'25� ZONE AE ����1I'D IPF HYCO LAKE �k�I�PF�5.05' IPFS6 N O0 �C) 39 6 F� O�F, I P F / 7IPF2°58'59'E tx N � '1 91.74 — IPF �S7 D��"�`1' 154.1j�0 • - •� I 1� 82.57' IPF s\ IPF o o ZONE AE S6 6�• 9 Og �' - ' 2 � � F _9 97 4 6 �PF IPF N F IPF °' I ' x0. IPF ` IPF LO IPF ZONE AE P F 119F S20° 48'08"E \ N40°53'40"W IPF S17°20'39"E NO2'31'02"W 96.86' 51.95' 78.85' \'S6, 104.47' �83g I P F IPF IPF \`s`�" I P o w' �JPF / N71'38'07"E IPF- - 119.58' 0 S61'43'51 "E It ZONE AE OF (.0 o 59.89' 01- S33'34'34"E v �^ Q 188.53' �. IF v �" N61'35'57"W 49.83' 1 I \ IPF IPF I IPF w N86'06'38"E > 't , 122.51' o r; o (6 i LO N 71 °57' 05'PE 55.39' LEGEND V CF COMBINED FACTOR Al AX / N65 0 AXLE STONE IRON PIPE FOUND oIPF IRON ROD FOUND oIRF � SET IRON ROD (#5 REBAR) / �CMF CONCRETE MONUMENT (FOUND) 1C,`Lh1 O COMPUTED POINT POWER POLE C.O.S. COMMON OPEN SPACE AC ACRES 0 WUL WATER USE LINE PROPERTY LINE ADJOINER (NOT SURVEYED) ISosso CL CREEK /STREAM 0 / Ck� CP is � EASEMENT (AS DESCRIBED) — — -�O R/w RIGHT OF WAY C'2 G C281 � — — SETBACK LINE — o GO G� sp, ZONE AE FLOOD HAZARD LINE (413' NAVD 88 CONTOUR) �g0 wommom � SEE SHEET 4 G MATCHLINE '01 „W 361.44' NO WELLS ALLOWED W 45 g1' 100000000 N13°20,2� S83°26 ' 3g,3g'W 240.3g, C291 WATERSAIL 'WAY � to _� �'t49"E 7ao S76 60' PRIVATE R/W C236 (WITHIN 100' OF SPRAY SYSTEM WETTED AREA) GRAPHIC SCALE 100 0 50 100 200 400 SEE SHEET 1 FOR NOTES AND LEGEND. SEE SHEET 9 FOR LINE AND CURVE TABLES. ( IN FEET ) 1 inch = 100 ft. a&,% S40°32'56"EN 89.19 00 w w N w w w z J x H Q i 575�37,23, W 1gs.23, 75.3-1 45) N7 s`37 23 E 311 s3 GO fl' w� w N E GRAPHIC SCALE 100 0 50 100 200 400 m Know what's below. Call before you dig. ( IN FEET ) 1 inch = 100 ft. IPF FUTURE DEVELOPMENT S75°37'23"W 21.30' co ' C310 ` S2 Mg TCy 00,14.. IV C218 N68 s9 H£ S££` 9� 83' 46..w y££T 3 98 60, pRi q�IL �A y 4 N2100 �4 f Riw Soo ` 97.83. o ' S68 S9,4 N68 S 6 F 37 9 46.,E 3 C219 IN o., C C) c IgPF S61 °43'51 "E 59.89'- IPF aZ N 86 °06'38 122.! H w w N w w N w z x U H Q / / / 30' PIEDMONT ELECTRIC MEMBERSHIP CORPORATION RIGHT—OF—WAY / N13°20 22 W / N73.5A' 49 E C292 / p1' 4s•p S13°2p'22 E 4C 298 / 67.2458'W �8 C234 / s / 3S2 82 / C299 N67,2� s$ rn o S78°11,24„W 29 C300 C�20 Vry N78°11124''E 255.61' N13°06'49"W 35.96' S13°06'49"E 33.93' R/W LEGEND CF COMBINED FACTOR AX 0 AXLE STONE IPF IRON PIPE FOUND 0 IRON ROD FOUND OIRF SET IRON ROD (#5 REBAR) 0CMF CONCRETE MONUMENT (FOUND) 0 COMPUTED POINT fj POWER POLE C.O.S. COMMON OPEN SPACE AC ACRES WUL WATER USE LINE PROPERTY LINE ADJOINER (NOT SURVEYED) CL CREEK / STREAM EASEMENT (AS DESCRIBED) RIGHT OF WAY SETBACK LINE ZONE AE FLOOD HAZARD LINE (413' NAVD 88 CONTOUR) NO WELLS ALLOWED (WITHIN 100' OF SPRAY SYSTEM WETTED AREA) SEE SHEET 1 FOR NOTES AND LEGEND. SEE SHEET 9 FOR LINE AND CURVE TABLES. JU. Know what's below. Call before you dig. I ` I � \ / I I 1000, HYCO LAKE'- 6�$ ///, i� 556,.E IP TAX MAP A13-171 N81°29"E N 79 41' WILLIAM LOGSDON y/ 13°51'S� E IPF g4 g6 SHERRI LOGSDON N 8g 80 IPF PC. 12, PG. 380 // t��'� IP7729'3g'E S87°21'30"E N82°50'57E IPF I DB. 902, PG. 822 r/ �6,L9$2,I. 87.22' IPF 106.60' 81.14' IPF jQ v IPF ion tiN N r \_N30°09'29"E 77.68' IPF - IPF N: 1004613.95' E: 1971964.84' IMATCHLINE SEE SHEET 3 � I N7 5� cn ..w 195,23 � N N I N86'01'50"W 379.52' S75°37 23 w WATERSAIL WAY C319 w E 311 53 w Z 60' PRIVATE R/W N75°37 23 < S86'0150"E 379.52' C217 a I G216 TRACT 3 TAX MAP A14-165 EAST COAST INVESTORS, LLC DB. 1006, PG. 428 FUTURE DEVELOPMENT ' / IPFs7542'33„ \ 116 98 E , IPF / F N � , IPF /J z Z •I OF L, �,', GRAPHIC SCALE 100 0 50 100 200 400 N 70°19'24"E 69.62' IPF S7726'59" � 86 —. E S07' S36°4• LEGEND CF COMBINED FACTOR AX 0 AXLE STONE IPF IRON PIPE FOUND 0 IRF IRON ROD FOUND 0 SET IRON ROD (#5 REBAR) 0CMF CONCRETE MONUMENT (FOUND) }g( COMPUTED POINT fj POWER POLE C.O.S. COMMON OPEN SPACE AC ACRES WUL WATER USE LINE PROPERTY LINE ADJOINER (NOT SURVEYED) CL CREEK / STREAM — — EASEMENT (AS DESCRIBED) R/W RIGHT OF WAY — — SETBACK LINE — — ZONE AE FLOOD HAZARD LINE (413' NAVD 88 CONTOUR) NO WELLS ALLOWED (WITHIN 100' OF SPRAY SYSTEM WETTED AREA) SEE SHEET 1 FOR NOTES AND LEGEND. SEE SHEET 9 FOR LINE AND CURVE TABLES. ( IN FEET ) 1 inch = 100 ft. PARCEL CURVE TABLE CURVE # LENGTH RADIUS DELTA CH. DIRECTION CH. LENGTH C1 35.76 50.00 40.97 S8° 58' 40"E 35.00 C2 38.77 50.00 44.43 S51 ° 40' 43"E 37.81 C3 38.77 50.00 44.43 N83° 53' 40"E 37.81 C4 44.45 50.00 50.94 N36° 12' 42"E 43.00 C5 22.12 25.00 50.70 N36° 05' 39"E 21.41 C6 22.12 25.00 50.70 N86° 47' 52"E 21.41 C7 55.89 50.00 64.05 N80" 07' 27"E 53.03 C8 49.01 50.00 56.16 N20° 01' 02"E 47.07 C9 74.63 50.00 85.52 N50° 49' 28"W 67.89 C10 38.93 50.00 44.61 S6° 58' 27"W 37.95 C11 36.38 50.00 41.69 S36° 10' 29"E 35.59 C12 28.36 50.00 32.49 S73° 16' 01"E 27.98 C13 39.64 50.00 45.43 N67° 46' 25"E 38.61 C14 79.64 50.00 91.26 NO° 34' 03"W 71.48 C15 22.12 25.00 50.70 N20° 50' 38"W 21.41 C16 68.68 277.50 14.18 N11° 35' 52"E 68.50 C17 39.27 25.00 90.00 N63° 41' 15"E 35.36 C18 61.84 322.50 10.98 S76° 48' 23"E 61.75 C19 75.00 322.50 13.32 S88° 57' 44"E 73.43 C20 43.97 322.50 7.81 1 N80° 28' 11 "E 1 43.93 PARCEL CURVE TABLE CURVE # LENGTH RADIUS DELTA CH. DIRECTION CH. LENGTH C101 90.99 172.50 30.22 N40° 12' 08"W 89.94 C102 19.77 172.50 6.57 N58° 35' 48"W 19.76 C103 22.12 25.00 50.70 N36° 31' 43"W 21.41 C104 15.69 50.00 17.98 N20° 09' 55"W 15.62 C105 38.78 50.00 44.44 N51° 22' 17"W 37.81 C106 38.76 50.00 44.42 S84° 12' 06"W 37.80 C107 44.94 50.00 51.49 S360 14' 42"W 43.44 C108 82.03 172.50 27.25 N29° 30' 58"W 81.26 C109 37.29 172.50 12.39 N49° 20' 00"W 37.22 C110 35.39 172.50 11.76 N61° 24' 16"W 35.33 C111 19.33 172.50 6.42 N70° 29' 32"W 19.32 C112 16.44 277.50 3.39 N72" 00' 19"W 16.44 C113 31.27 277.50 6.46 N67° 04' 47"W 31.26 C114 22.12 25.00 50.70 N38° 29' 58"W 21.41 C115 23.46 50.00 26.89 N26° 35' 25"W 23.25 C116 66.98 50.00 76.75 N78° 24' 27"W 62.08 C117 79.01 50.00 90.54 S17° 57' 00"W 71.04 C118 76.13 50.00 87.24 370' 56' 11"E 68.99 C119 22.12 25.00 50.70 S89° 12' 10"E 21.41 C120 32.64 322.50 5.80 S66° 45' 03"E 32.63 WATER USE LINE TABLE LINE BEARING WUL1 S00°38'33"E WUL2 N00°27'29"W WUL3 S00°33'37"E WUL4 S18'31'17"E WUL5 SO4°29'09"E WUL6 S13°25'12"E WUL7 S12°25'08"E WUL8 S32`47'15"E WUL9 S27°24'28"E WUL10 S74`21'05"E LINE TABLE LINE LENGTH BEARING L36 121.33' N30°40'13"E L37 109.68' N19°05'54"E L142 47.06' S27°19'45"E L143 119.05' N89°11'11"E L144 122.25' S39°26'13"E L145 140.44' N55°02'05"E L146 68.92' S83'00'32"E L147 77.13' S57°11'16"E L148 96.34' S79`57'44"E L149 116.38' S73-48'57"E LINE TABLE LINE LENGTH BEARING L253 120.96' S01 °38'36"E L254 80.07' S42°23'26"W L255 87.44' N89°44'57"W L256 73.58' S12°25'08"W L257 93.35' S72°10'18"W L258 110.91' S46°12'47"E L259 80.50' S35°09'12"E L260 82.82' S01°29'10"E L261 159.59' S68°58'29"W L262 161.04' S71 °01'06"W PARCEL CURVE TABLE CURVE # LENGTH RADIUS DELTA CH. DIRECTION CH. LENGTH C21 36.93 270.00 7.84 N80° 28' 58"E 36.91 C22 87.39 270.00 18.54 S86° 19' 36"E 87.00 C23 6.31 530.00 0.68 S77° 23' 44"E 6.31 C24 85.81 530.00 9.28 S82° 22' 30"E 85.72 C25 9.18 25.00 21.04 S76° 29' 37"E 9.13 C26 63.81 50.00 73.13 N77° 27' 48"E 59.57 C27 39.42 50.00 45.17 N18° 18' 53"E 38.41 C28 42.51 50.00 48.71 N28° 37' 41 "W 41.24 C29 91.24 50.00 104.56 S74' 44' 10"W 79.10 C30 30.77 25.00 70.53 S57° 43' 20"W 28.87 C31 84.30 485.00 9.96 N82° 02' 03"W 84.19 C32 7.63 315.00 1.39 N77° 44' 55"W 7.63 C33 35.00 50.00 40.11 S76' 59' 22"E 34.29 C34 39.67 50.00 45.45 N60° 13' 48"E 38.63 C35 1.15 25.00 2.64 N38° 49' 13"E 1.15 C36 20.97 25.00 48.07 N64° 10' 20"E 20.36 C37 27.93 322.50 4.96 N85° 43' 32"E 27.92 C38 80.93 322.50 14.38 N76° 03' 20"E 80.72 C39 86.84 322.50 15.43 N61 ° 09' 08"E 86.58 C40 30.99 1 322.50 1 5.51 1 N50° 41' 08"E 1 30.98 PARCEL CURVE TABLE CURVE # LENGTH RADIUS DELTA CH. DIRECTION CH. LENGTH C121 22.81 322.50 4.05 S71' 40' 36"E 22.80 C122 39.18 222.50 10.09 N15° 43' 45"W 39.13 C123 22.12 25.00 50.70 N4' 34' 41"E 21.41 C124 86.35 50.00 98.95 N19° 32' 38"W 76.01 C125 35.76 50.00 40.97 N89° 30' 17"W 35.00 C126 85.26 50.00 97.71 S21° 09' 19"W 75.30 C127 38.20 50.00 43.78 S49' 35' 1FE 37.28 C128 22.12 25.00 50.70 S46° 07' 31"E 21.41 C129 80.77 177.50 26.07 S3° 03' 39"E 80.07 C130 0.15 977.53 0.01 N14° 12' 22"W 0.15 C131 80.08 977.50 4.69 N11° 51' 00"W 80.06 C132 55.43 977.50 3.25 N7' 52' 43"W 55.42 C133 53.43 1022.50 2.99 N7° 45' 05"W 53.43 C134 49.27 1022.50 2.76 N10° 37' 44"W 49.26 C135 21.88 25.00 50.15 N13' 03' 50"E 21.19 C136 58.00 50.00 66.46 N40 54' 22"E 54.80 C137 60.96 50.00 69.85 N63° 14' 59"W 57.25 C138 42.28 50.00 48.45 S570 35' 59"W 41.03 C139 84.33 50.00 96.64 S14° 56' 44"E 74.69 C140 20.01 25.00 45.86 S400 20' 09"E 19.48 WATER USE LINE TABLE LINE BEARING WUL11 S25°30'41"E WUL12 S22°15'35"E WUL13 S42°29'59"E WUL14 S45°31'15"E WUL15 N11°33'54"W WUL16 S00°47'03"W WUL17 S00°07'32"E WUL18 S47°38'13"W WUL19 Sol °10'19"W WUL20 S02°58'40"E WATER USE LINE TABLE LINE BEARING WUL21 S09°05'30"E WUL22 S20°33'34"E WUL23 S36°05'46"E WUL24 S10'26'03"E WUL25 S09°14'50"W WUL26 SO4°35'56"E WUL27 S12'07'29"E WUL28 S31`38'28"E WUL29 S29°43'47"E WUL30 S45°10'12"E LINE TABLE LINE LENGTH BEARING L150 121.75' S53'04'10"E L151 66.23' N32°34'56"E L152 87.69' N81 °34'38"E L153 78.69' S67°45'26"E L154 101.80' S29°46'22"E L155 72.48' N42°28'30"E L156 69.85' N37°46'51 "E L157 95.20' S72°06'28"E L158 92.57' S47°13'11 "E L159 64.54' S24-19'45"E LINE TABLE LINE LENGTH BEARING L241 111.27' S65°45'19"W L242 114.53' S81 °19'01 "W L243 137.65' N69°14'32"W L244 103.32' N29°18'48"W L245 181.89' N21 °09'51 "W L246 60.61' S03°29'l9"W L247 138.44' S33°15'54"W L248 71.84' N53°44'57"W L249 121.29' N30°24'35"W L252 73.12' S23-32'37"W PARCEL CURVE TABLE CURVE # LENGTH RADIUS DELTA CH. DIRECTION CH. LENGTH C41 83.49 172.50 27.73 N34° 04' 02"E 82.68 C42 113.61 172.50 37.74 N1 ° 19' 59"E 111.57 C43 38.45 25.00 88.13 N26° 31' 48"E 34.77 C44 29.00 745.00 2.23 N71 ° 42' 38"E 29.00 C45 82.95 745.00 6.38 N76° 00' 56"E 82.91 C46 108.96 745.00 8.38 N83° 23' 43"E 108.86 C47 117.74 745.00 9.06 S87° 53' 14"E 117.62 C48 69.74 745.00 5.36 S80° 40' 41"E 69.71 C49 25.94 1030.00 1.44 S78° 43' 03"E 25.93 C50 113.93 1030.00 6.34 S82° 36' 28"E 113.88 C51 9.47 970.00 0.56 S85° 29' 49"E 9.47 C52 92.05 970.00 5.44 S82° 29' 56"E 92.01 C53 89.69 970.00 5.30 S77° 07' 53"E 89.66 C54 32.01 1030.00 1.78 S75° 22' 22"E 32.01 C55 80.31 1030.00 4.47 S780 29' 48"E 80.29 C56 86.52 1030.00 4.81 S83° 08' 13"E 86.49 C57 80.08 1030.00 4.45 S87° 46' 14"E 80.06 C58 14.02 25.00 32.13 S74° 17' 33"E 13.84 C59 4.69 25.00 10.75 S52° 51' 12"E 4.68 C60 73.35 50.00 84.05 SW 30' 16"E 66.94 PARCEL CURVE TABLE CURVE # LENGTH RADIUS DELTA CH. DIRECTION CH. LENGTH C141 2.38 25.00 5.45 S14° 40' 49"E 2.38 C142 97.24 977.50 5.70 S9° 06' 15"E 97.20 C143 27.42 1022.50 1.54 S7° 01' 21"E 27.42 C144 107.67 1022.50 6.03 S10° 48' 27"E 107.62 C145 51.08 127.50 22.95 N7° 57' 46"W 50.74 C146 22.12 25.00 50.70 N28° 51' 58"E 21.41 C147 68.42 50.00 78.40 N15' 01' 07E 63.20 C148 47.91 50.00 54.90 N51 ° 37' 45"W 46.10 C149 36.62 50.00 41.97 S79° 56' 17"W 35.81 C150 64.37 50.00 73.77 S22° 04' 17W 60.02 C151 28.25 50.00 32.38 S31' 00' 01"E 27.88 C152 22.12 25.00 50.70 S21 ° 50' 14"E 21.41 C153 104.53 172.50 34.72 N32° 18' 53"E 102.94 C154 50.73 172.50 16.85 N60 31' 47"E 50.55 C155 50.73 172.50 16.85 N10° 19' 10"W 50.55 C156 58.06 172.50 19.28 N28° 23' 11"W 57.79 C157 6.91 172.50 2.30 N39° 10' 36"W 6.91 C158 30.77 25.00 70.53 N5° 03' 37"W 28.87 C159 88.94 50.00 101.92 N20° 45' 18"W 77.67 C160 48.74 282.50 9.89 N18° 14' 30"E 48.68 WATER USE LINE TABLE LINE BEARING WUL31 S13°38'23"E WUL32 S07°58'32"W WUL33 S23°09'32"E WUL34 S28°19'06"E WUL35 S25°17'03"E WUL38 S87°25'47"E WUL39 N31 °30'54"E WUL40 N20°52'25"E WUL41 S18'55'32"E WUL42 N14`58'11"E LINE TABLE LINE LENGTH BEARING L160 167.89' S68'45'36"E L161 85.76' S57°27'53"E L162 76.32' S15'39'05"E L163 105.36' S17°32'43"W L164 87.28' S37°37'04"W L165 87.38' S65°48'35"W L166 91.87' S46'11'35"W L167 67.18' N82°04'38"W L168 45.43' N52°34'18"W L169 57.26' S54°49'55"W LINE TABLE LINE LENGTH BEARING L231 93.55' S30°21'42"W L232 48.50' N78°24'04"W L233 60.09' S06°29'51 "W L234 60.30' S50°06'00"W L235 104.24' S80°25'51 "W L236 137.07' N86°31'27"W L237 205.04' N36°18'28"W L238 75.82' S16°11'34"W L239 99.51' S12°35'38"W L240 134,05' S48'02'52"W WATER USE LINE TABLE LINE BEARING WUL43 S14°29'52"E WUL44 N11 °32'24"E WUL45 S51 °41'32"E WUL46 S23°27'39"W WUL47 S31 °23'17"W WUL48 S10°11'34"W WUL49 S21°52'25"E WUL50 S18`13'18"E WUL51 S18°27'32"E WUL52 S22`21'47"E LINE TABLE LINE LENGTH BEARING L170 98.09' S58°34'35"W L172 55.84' N53°06'40"W L173 82.08' S78°15'04"W L174 130.33' S76°31'04"W L175 147.20' N25°36'03"W L176 54.99' N62°55'14"W L177 140.45' S43°27'42"W L178 70.51' S71°08'34"W L179 113.34' S79°07'27"W L180 99.17' N64'20'36"W LINE TABLE LINE LENGTH BEARING L221 187.20' S61°35'24"W L222 87.06' S75°02'42"W L223 97.07' N62°33'06"W L224 95.92' N89°24'33"W L225 67.73' N82°28'18"W L226 100.17' S53°30'28"E L227 60.27' S25°48'51 "E L228 118.84' S36°45'52"W L229 66.31' S28°18'14"W rL230 42.25' S02°14'01 "W PARCEL CURVE TABLE CURVE # LENGTH RADIUS DELTA CH. DIRECTION CH. LENGTH C61 25.43 50.00 29.14 N33° 54' 14"E 25.15 C62 23.85 50.00 27.33 N5° 40' 24"E 23.62 C63 23.78 50.00 27.25 N21 ° 36' 58"W 23.56 C64 30.04 50.00 34.42 N52° 27' 15"W 29.59 C65 52.61 50.00 63.48 S78° 35' 36"W 52.61 C66 18.67 25.00 42.79 S68° 14' 48"W 18.24 C67 47.03 970.00 2.78 N88° 58' 13"W 47.03 C68 82.26 970.00 4.86 N85° 09' 06"W 82.24 C69 80.44 970.00 4.75 N80° 20' 46"W 80.42 C70 59.05 970.00 3.49 N76° 13' 35"W 59.04 C71 45.30 1030.00 2.52 N750 44' 32"W 45.29 C72 80.45 1030.00 4.48 N79° 14' 24"W 80.43 C73 77.29 1030.00 4.30 N830 37' 38"W 77.27 C74 73.51 970.00 4.34 N83° 36' 21 "W 73.49 C75 58.22 970.00 3.44 N790 42' 56"W 58.21 C76 0.73 805.00 0.05 N78° 01' 20"W 0.73 C77 80.31 805.00 5.72 N80° 54' 23"W 80.28 C78 80.04 805.00 5.70 N86° 36' 47"W 80.01 C79 22.12 25.00 50.70 N29° 40' 07"E 21.41 C80 49.88 1 50.00 1 57.16 N26° 26' 26"E 47.84 PARCEL CURVE TABLE CURVE # LENGTH RADIUS DELTA CH. DIRECTION CH. LENGTH C161 57.68 317.50 10.41 N170 58' 47"E 57.60 C162 86.74 100.00 49.70 S41 ° 08' 45"W 84.04 C163 51.78 65.00 45.64 S43° 10' 18"W 50.42 C164 44.67 805.00 3.18 N88° 56' 55"E 44.67 C165 42.31 25.00 96.97 N44° 09' 44"W 37.44 C166 6.50 1030.00 0.36 N89° 49' 17E 6.50 C167 14.49 177.50 4.68 S18° 26' 05"E 14.49 C168 111.25 277.50 22.97 N2° 53' 33"W 110.50 C169 58.11 127.50 26.11 N21 ° 38' 53"E 57.60 C170 33.32 127.50 14.97 N42° 11' 22"E 33.22 WATER USE LINE TABLE LINE BEARING WUL53 S08°41'59"E WUL54 S01°07'38"E WUL55 S12°46'08"E WUL56 N11°20'50"W WUL57 S20°28'53"E WUL58 S05'54'15"W WUL59 S16°58'56"W WUL60 SO4°54'54"W WUL61 S16°06'58"E WUL62 N32°01'26"W LINE TABLE LINE LENGTH BEARING L181 59.28' N27°36'57"W L182 62.15' N58°46'10"W L183 55.40' S38°55'27"W L184 107.02' S31 °18'19"W L185 95.18' S61 °23'47"W L186 86.66 S81 °56'42"W L187 69.43' N68°32'16"W L188 42.85' S33°47'43"W L189 63.23' SO4°03'50"E L190 99.14' S25°06'05"W LINE TABLE LINE LENGTH BEARING L263 100.47' N55`38'45"W L264 108.56' S41 °54'40"W L265 114.50' N45`07'37"W L266 122.64' N25'27'45"W L267 115.97' N35`02'37"W L268 85.72' S12°28'56"W L269 130.63' S07°35'24"E L270 80.82' S13°42'59"E L271 89.19' S21 °40'09"W L272 31.33' S75°42'41 "W WATER USE LINE TABLE LINE BEARING WUL63 S10°17'34"W WUL64 S64°27'38"W WUL65 S06°36'34"W WUL66 S19°04'57"E WUL67 S03°33'40"E WUL68 SO4'57'57"E WUL69 S02'00'43"E WUL70 S22°08'15"E WUL71 S70'39'50"E WUL72 N89°19'12"E LINE TABLE LINE LENGTH BEARING L191 66.91' S73°17'52"W L192 78.22' S38°06'22"W L193 50.65' S09°13'42"E L194 98.21' S57°52'20"W L195 170.43' N86°53'17"W L196 165.92' N66°20'56"W L197 104.28' N39°07'28"W L198 104.41' N32°02'12"W 1-199 64.76' S26°57'45"W L200 101.87' S06°13'12"W LINE TABLE LINE LENGTH BEARING L273 95.38' S76`14'23"W L274 140.74' S87°34'05"W L275 31.97' N30°34'15"W L276 195.63' N88°12'30"W L277 49.98' N01 °49'44"E L278 50.00' S01 °51'49"W L279 105.21' N88°07'17"W PARCEL CURVE TABLE CURVE # LENGTH RADIUS DELTA CH. DIRECTION CH. LENGTH C81 51.27 50.00 58.75 N31 ° 30' 59"W 49.06 C82 35.87 50.00 41.11 N81 ° 26' 47"W 35.11 C83 34.71 50.00 39.78 S58° 06' 46"W 34.02 C84 73.84 50.00 84.61 S4° 04' 51"E 67.31 C85 22.12 25.00 50.70 S21' 02' 06"E 21.41 C86 98.96 277.50 20.43 N26° 56' 36"W 98.43 C87 98.52 277.50 20.34 N6° 33' 25"W 98.00 C88 19.36 322.50 3.44 N 1 ° 53' 37"E 19.36 C89 22.54 322.50 4.00 N 1 ° 49' 43"W 22.54 C90 29.47 172.50 9.79 N8° 43' 28"W 29.43 C91 81.35 172.50 27.02 N27° 07' 44"W 80.60 C92 22.12 25.00 50.70 N15' 17' 17W 21.41 C93 33.15 50.00 37.99 N8° 55' 45"W 32.55 C94 81.16 50.00 93.00 N74' 25' 19"W 72.54 C95 52.93 50.00 60.65 S28° 45' 13"W 50.49 C96 78.17 50.00 89.58 S46° 21' 35"E 70.45 C97 20.49 25.00 46.95 S67° 40' 19"E 19.92 C98 89.82 127.50 40.36 S24° 00' 48"E 87.98 C99 89.82 127.50 40.36 S24° 00' 48"E 87.98 C100 36.06 277.50 7.44 SO° 06' 31"E 36.03 WATER USE LINE TABLE LINE BEARING WUL73 N27°51'14"E WUL74 N47°13'13"E WUL75 N29°02'09"E WUL76 N24'26'55"W WUL77 N06°15'57"E WUL78 N21'06'27"E WUL79 N08°00'15"E WUL80 N07°42'18"E WUL81 N06°51'25"E WUL82 N04°19'00"E LINE TABLE LINE LENGTH BEARING L201 77.25' S18°06'11 "W L202 87.01' S63°43'59"W L203 70.84' N75°56'58"W L204 42.37' S36°40'51 "W L205 63.04' S87°31'45"W L206 87.73' S61°31'24"W L207 60.58' S88'51'04"E L208 54.05' S62°40'27"E L209 65.67' S88`07'01 "E L210 111.30' S74°27'46"E LINE TABLE LINE LENGTH BEARING L280 186.87' N84'00'41 "E L281 211.62' S86°55'45"W L282 135.29' S20°34'45"W L283 145.99' S75°43'26"W L284 258.37' S88°30'24"W L304 135.44' N88°30'24"E L306 59.21' S88°30'24"W WATER USE LINE TABLE LINE BEARING WUL84 N04°01'34"E WUL86 N18°04'27"W WUL87 N37°08'12"E WUL88 N16°11'23"E WUL89 NO3°37'53"E WUL90 N55°01'40"E WUL91 S12'31'23"E WUL92 S67'51'08"E LINE TABLE LINE LENGTH BEARING L211 96.39' S64°48'49"E L212 89.12' S43°06'45"E L213 36.39' S86°09'20"E L214 124.27' S62°00'30"E L215 54.31' S78°32'30"E L216 55.45' S32°35'44"E L217 75.03' S48'28'12"W L218 124.96' S67°18'13"W L219 93.24' S62°25'00"W L220 52.34' S49-12'57"W LINE TABLE LINE LENGTH BEARING L289 41.64' N88°06'15"W L290 334.65' N43°15'20"W L291 165.41' N60°32'59"W L292 325.27' N69°05'44"W L293 50.94' N84°24'02"W L294 59.01' S84°24'32"E L295 331.54' S69°08'44"E L296 172.22' S60°32'59"E L297 326.84' S43°15'21 "E L298 29.26' S88°06'15"E LINE TABLE LINE LENGTH BEARING L285 153.61' N66°40'58"E L286 31.65' S23°17'02"E L287 44.23' S59°07'05"W L288 135.90' S58°57'06"W L299 21.71' S67°09'20"W L300 53.27' N58°41'15"E L301 24.87' N58°41'15"E L302 41.11' S58°41'15"W 1-303 69.92' 1 S66'40'58"W CURVE TABLE CURVE RADIUS LENGTH CHORD CHORD BEARING DELTA C201 470.00' 77.64' 77.55' S16°45'30"E 009'27'53" C202 470.00' 32.71' 32.70' S10°01'57"E 003*59'13" C203 530.00' 20.72' 20.71' S10°54'22"E 002°14'22" C204 530.00' 87.55' 87.45' S16°45'30"E 009'27'53" C205 530.00' 180.43' 179.56' N07°14'50"E 019`30'21" C206 270.00' 454.80' 402.91' S45°45'01 "W 096'30'43" C207 50.00' 46.83' 45.13' N59°09'51 "W 053`39'32" C208 85.00' 159.21' 136.94' S85°59'37"E 107*19'03" C209 50.00' 46.83' 45.13' S67°10'37"W 053`39'32" C210 50.00' 46.83' 45.13' S59'09'51"E 053'39'32" C211 85.00' 159.21' 136.94' N85°59'37"W 107`19'03" C212 50.00' 46.83' 45.13' N67°10'37"E 053'39'32" C213 330.00' 555.87' 492.44' S45°45'01 "W 096`30'43" C214 470.00' 180.23' 179.12' N08°28'47"E 021'58'15" C215 330.00' 476.81' 436.40' N52°36'48"E 082°47'09" C216 270.00' 389.94' 356.93' S52'35'42"W 082'44'56" C217 330.00' 105.67' 105.22' N84°47'46"E 018*20'47" C218 270.00' 166.73' 164.09' N86-41'12"W 035°22'51" C219 330.00' 188.99' 186.42' S85°24'11"E 032°48'49" C220 25.00' 38.70' 34.95' N57°27'42"W 088°41'47" CURVE TABLE CURVE RADIUS LENGTH CHORD CHORD BEARING DELTA C261 127.50' 43.67' 43.45' N27°20'50"W 019°37'24" C262 25.00' 44.15' 38.63' N33'03'14"E 101 *10'45" C263 270.00' 105.87' 105.19' S85°07'23"E 022°28'00" C264 330.00' 38.78' 38.75' N77°15'22"W 006°43'57" C265 25.00' 33.60' 31.13' S42°07'15"E 077*00'11" C266 172.50' 64.65' 64.27' N14°21'19"W 021 °28'19" C267 50.00' 107.41' 87.92' S51 °02'35"E 123°04'55" C268 25.00' 22.12' 21.41' N87°13'56"W 050*42'13" C269 127.50' 129.65' 124.13' N32°45'00"W 058*15'40" C270 25.00' 38.20' 34.59' N40°09'25"E 087°33'09" C271 330.00' 175.44' 173.38' S68*42'11 "W 030°27'37" C272 270.00' 57.54' 57.43' N59°34'42"E 012*12'39" C273 25.00' 39.27' 35.36' S69°18'58"E 090*00,00" C274 127.50' 90.38' 88.50' SO4°00'33"E 040°36'49" C275 172.50' 96.91' 95.64' N00'12'09"E 032*11'24" C276 127.50' 200.28' 180.31' N28°42'09"W 090*00,00" C277 172.50' 122.28' 119.73' SO4°00'33"E 040°36'49" C278 25.00' 39.27' 35.36' N20°41'02"E 090°00'00" C279 330.00' 152.04' 150.69' S52°29'08"W 026°23'49" C280 270.00' 131.09' 129.81' N53'11'46"E 027°49'05" CURVE TABLE CURVE RADIUS LENGTH CHORD CHORD BEARING DELTA C321 270.00' 390.12' 357.06' N52°36'48"E 082°47'09" C322 25.00' 33.32' 30.91' N42°30'03"E 076°22'06" C323 806.65' 141.82' 141.64' S75°38'54"W 010*04'25" C324 25.00' 40.09' 35.93' S63°28'12"E 091 °52'09" C325 172.50' 59.08' 58.79' N27'20'50"W 019*37'24" LINE TABLE LINE LENGTH BEARING L401 31.91' S28°33'14"E L402 48.22' S15°04'17"E L403 22.45' S28°33'14"E L421 62.01' SO4°30'29"W L422 17.88' S18°41'15"W L423 16.90' N71 °18'45"W L424 17.94' S38°26'08"E L425 115,55' N77°03'17"W L426 59.29' N87°00'48"W L427 15.50' N87'00'48"W LINE TABLE LINE LENGTH BEARING L428 115.55' N77°03'17"W L429 12.27' N76°33'50"E L442 13.14' S20°52'52"W L443 66.57' S26'12'59"W L444 85.31' S24'32'00"W L445 38.68' S47`55'58"W L446 25.90' N17'32'08"W L447 76.14' S70`35'43"W L463 55.86' S74°28'57"E L475 65.04' S89`38'27"W CURVE TABLE CURVE RADIUS LENGTH CHORD CHORD BEARING DELTA C221 322.50' 182.41' 179.99' S29°19'01 "E 032°24'26" C222 127.50' 83.32' 81.85' N26°49'44"W 037°26'33" C223 322.50' 115.09' 114.48' S18°19'51 "E 020°26'47" C224 25.00' 39.27' 35.36' N16°26'46"E 090*00,00" C225 25.00' 22.12' 21.41' N86°47'52"E 050*42'13" C226 50.00' 87.82' 76.96' S61'49'46"W 100*38'24" C227 50.00' 66.04' 61.34' S48°34'45"W 075°40'24" C228 25.00' 22.12' 21.41' N36°05'39"E 050*42'13" C229 25.00' 39.27' 35.36' S73°33'14"E 090°00'00" C230 277.50' 99.03' 98.50' S18°19'51 "E 020°26'47" C231 172.50' 112.73' 110.73' N26°49'44"W 037°26'33" C232 277.50' 157.10' 155.01' S29°19'55"E 032*26'12" C233 25.00' 35.14' 32.32' S27°09'04"W 080°31'46" C234 270.00' 43.56' 43.52' S72°02'18"W 009*14'41" C235 270.00' 31.92' 31.90' S80°02'49"W 006°46'22" C236 80.00' 69.41' 67.25' N71°42'39"W 049°42'41" C237 90.12' 53.27' 52.50' S63°47'21 "E 033°52'05" C238 80.00' 67.87' 65.85' N56°25'11"W 048°36'25" C239 177.50' 117.35' 115.23' N13°16'35"W 037°52'52" C240 277.50' 62.38' 62.25' N12°14'50"E 012*52'49" CURVE TABLE CURVE RADIUS LENGTH CHORD CHORD BEARING DELTA C281 80.00' 87.32' 83.05' S81°37'35"E 062*32'13" C282 90.02' 20.81' 20.77' N56'58'55"W 013*14'53" C283 80.00' 79.64' 76.39' S35°05'11 "E 057°02'22" C284 177.50' 105.20' 103.67' S10'24'46"W 033°57'31" C285 222.50' 147.87' 145.16' N08'21'13"E 038°04'37" C286 177.50' 53.96' 53.75' N18°41'00"E 017`25'03" C287 222.50' 131.87' 129.95' S10'24'46"W 033°57'31" C288 80.00' 67.82' 65.81' N17°43'08"E 048*34'15" C289 90.02' 12.97' 12.96' S37°52'31"W 008*15'28" C290 80.00' 69.38' 67.22' N58°35'24"E 049*41'13" C291 330.00' 39.01' 38.99' S80°02'49"W 006°46'22" C292 25.00' 39.27' 35.36' S58`20'22"E 090°00'00" C293 277.50' 207.47' 202.67' S08°04'45"W 042*50'14" C294 322.50' 246.00' 240.08' N07°38'45"E 043*42'14" C295 1022.50' 6.82' 6.82' S14'00'54"E 000°22'55" C296 277.50' 211.67' 206.58' N07°38'45"E 043*42'14" C297 322.50' 241.12' 235.54' S08°04'45"W 042*50'14" C298 25.00' 35.24' 32.39' N27°02'18"E 080*45'19" C299 270.00' 50.77' 50.70' N72'48'11 "E 010*46'27" C300 270.00' 154.63' 152.53' S85°24'11 "E 032°48'49" LINE TABLE LINE LENGTH BEARING L476 55.86' N74°28'57"W L487 21.58' N77°59'47"W L488 110.46' N61 °52'50"W L489 44.40' N73°42'09"W L490 12.21' S73°42'09"E L491 113.61' N06`15'16"W FL492 113.61' 1 S06-15'16"E CURVE TABLE CURVE RADIUS LENGTH CHORD CHORD BEARING DELTA C241 322.50' 79.81' 79.61' S11 °35'52"W 014*10'46" C242 25.00' 22.12' 21.41' N29°51'35"E 050*42'13" C243 50.00' 22.63' 22.44' S42°14'40"W 025°56'03" C244 315.00' 137.41' 136.32' S89'03'38"W 024°59'37" C245 277.50' 155.58' 153.55' S87°22'28"E 032°07'25" C246 25.00' 39.27' 35.36' S26°18'45"E 090*00,00" C247 322.50' 72.50' 72.35' N12°14'50"E 012*52'49" C248 222.50' 147.14' 144.47' N13°16'21 "W 037°53'22" C249 80.00' 145.20' 126.08' S19°54'36"W 103°59'38" C250 330.00' 187.88' 185.35' N55°35'49"E 032*37'12" C251 270.00' 124.39' 123.30' S52`29'08"W 026°23'49" C252 330.00' 70.33' 70.20' N59°34'42"E 012*12'39" C253 270.00' 248.05' 239.42' S79`47'30"W 052*38'14" C254 330.00' 149.50' 148.22' S86°52'05"E 025°57'23" C255 25.00' 35.91' 32.91' N58°41'27"W 082*18'38" C256 127.50' 145.69' 137.89' N15°11'55"E 065°28'06" C257 277.50' 195.06' 191.07' N68°04'10"E 040*16'24" C258 25.00' 22.12' 21.41' S66°26'31 "E 050*42'13" C259 50.00' 170.91' 99.05' S40°59'13"W 195°50'44" C260 322.50' 229.50' 224.68' S16°46'21 "E 040°46'22" CURVE TABLE CURVE RADIUS LENGTH CHORD CHORD BEARING DELTA C301 25.00' 39.27' 35.36' S23°59'46"E 090°00'00" C302 127.50' 55.68' 55.24' S33'30'54"W 025°01'20" C303 172.50' 87.57' 86.63' N31°28'58"E 029*05'11" C304 172.50' 109.53' 107.70' N01°15'00"W 036°22'47" C305 172.80' 71.25' 70.74' S07°37'05"E 023°37'25" C306 127.50' 80.96' 79.60' N01°15'00"W 036°22'47" C307 127.50' 64.73' 64.03' N31°28'58"E 029*05'11" C308 172.50' 75.33' 74.74' S33`30'54"W 025°01'20" C309 25.00' 39.27' 35.36' N66°00'14"E 090*00,00" C310 330.00' 203.78' 200.56' N86°41'12"W 035°22'51" C311 25.00' 39.27' 35.36' S59°22'37"E 090*00,00" C312 50.00' 148.05' 99.59' S23`27'39"W 169°39'00" C313 25.00' 9.18' 9.13' N50°50'40"W 021 °02'22" C314 127.50' 200.28' 180.31' N04°40'31 "E 090°00'00" C315 172.50' 45.07' 44.95' S42°11'22"W 014*58'17" C316 172.50' 78.61' 77.94' S21 °38'53"W 026°06'42" C317 322.50' 129.29' 128.42' S02°53'33"E 022°58'09" C318 25.00' 39.27' 35.36' N30°37'23"E 090°00'00" C319 270.00' 86.46' 86.09' N84°47'46"E 018*20'47" C320 330.00' 476.60' 436.24' S52°35'42"W 082°44'56" DUKE ENERGY LAND ACCOUNTING INFORMATION SITE: 104540 PROJECT (MAP): 104540-004876 SEE SHEET 1 FOR NOTES AND LEGEND. IG. Know what's below. Call before you dig. East Coast Investors, LLC Lot 62 & 63 Peninsula at Hyco Lake Person County, North Carolina Soils Evaluation MacConnell & Associates, P.C. 501 Cascade Pointe Lane, Suite 103 Cary, North Carolina 27513 P.O. Box 129 Morrisville, North Carolina 27560 Phone: (919) 467-1239 Fax: (919) 319-6510 PIEDMONT 4: ENVIRONMENTAL ASSOC I A T E S, P. A. 12/ 15/2023 Sunbelt Land Management c/o: Randy Allen 3129 Springbank Ln., Suite 201 Charlotte, NC 28226 Project # 3656 Soils Report for Proposed Residential Surface Spray Wastewater Irrigation System Project Name: The Peninsula at Hyco Lake, Lot 62/63 A detailed soil evaluation on the above referenced tract was conducted to determine suitability for a subsurface or surface wastewater system. This report is being prepared to satisfy the requirements set forth by 15A NCAC 02T.0600 concerning the soils report for single family surface wastewater systems since this property does not contain enough suitable soils to support a 3-bedroom subsurface septic system. The location and characteristics of a site that is potentially useable for a surface drip irrigation wastewater system was identified. This report details our findings and provides the necessary soil/site information needed for a surface irrigation system to be designed by a professional engineer. This fieldwork was completed in July, 2023. The potentially useable soil area was located in the field and is shown on the accompanying soils map (Attachment 1). The proposed disposal area is compliant with buffers for surface wastewater systems. The map also shows the locations where measurements of saturated hydraulic conductivity (Ksat) were performed. This site is located in the "Intermediate Mafic" geologic unit of Person County. Upland soils on the site are generally similar to the Raslo/Siloam soil series. These soils have expansive clay mineralogy and may have indications of soil wetness present in the subsurface horizons. Soil wetness indicators are understood to be perched based on guidance and interpretations of the Person County soil survey document. These types of soils are generally unsuitable for conventional subsurface septic systems. However, the favorable soil characteristics of the surface horizons offer the opportunity for surface application of treated wastewater. Soil Evaluation The soil condition of the proposed wastewater area is described with the borings shown on the attached soils map, as well as in the accompanying Ksat location soil profile descriptions (Attachment 2). 216 S. Swing Rd., Suite 1 �/, Greensboro, NC 27409 �/, 336-662-5487 The landscape position for the proposed irrigation field is on a broad side slope with a sandy loam A horizon. We recommend a maximum instantaneous irrigation rate of no greater than 0.3 in/hr for design purposes. Measurements of saturated hydraulic conductivity (Ksat) were conducted within the Bt horizon at three locations within each of the two proposed drip disposal area. The Bt horizon was tested because it was the most restrictive soil horizon based on texture and mineralogy. It should be noted that a portion of the proposed drip dispersal field will rely on amendment with approved soil. The area should be amended and smoothed with additional topsoil per the following procedure: Approved Procedures for the Addition of Fill Materials 1) A NC Licensed Soil Scientist shall review the site to determine that soil moisture conditions are low enough to ensure that compaction of the underlying subsoil and rutting of the soil surface will not occur. The Soil Scientist shall also be present during the procedure outlined below to minimize the risk of damaging the application area through direct supervision of the installation. 2) The material shall be inspected to insure that fibrous organics, building rubble, or other debris are not present. Fill material shall have USDA soil textures classified as sand, loamy sand or sandy loam, however the final six inches of fill used shall have a sandy loam or loam texture for the establishment of a vegetative cover. 3) Heavy vegetative cover or organic litter shall be removed from the native soil within the application area prior to incorporation of the fill material. 4) A layer of fill material shall be added to the application area. This first layer of fill material and the existing soil shall then be mixed to a depth of six inches below the native soil/fill interface. 5) The fill area shall be shaped to shed surface water and shall be stabilized with a vegetative cover to prevent erosion if installation is to occur greater than one week from fill addition. The side slope of the fill shall not exceed a rise to run ratio of 1:4 6) A soil test shall be performed on the fill material after installation to determine the amount of liming material necessary to stabilize the material, and the fertilizer required for the establishment of a cover crop if applicable. 7) If a vegetative cover crop is to be established on the fill material, fescue grass seed shall be applied at a rate of 5lbs per thousand square feet and mulched with wheat straw at a rate of 1 bale per thousand square feet. Since a sandy loam surface texture is required for the fill material, a maximum instantaneous irrigation rate of 0.3 in/hr is recommended for the filled portion of the drain field as well. The geometric mean Ksat of the native Bt horizon (most restrictive) was 0.023 in/yr. Ksat calculations and field data are shown in Attachment 3. Single Family Loading Rate Worksheet A single-family water balance calculation was conducted per the above referenced regulation. Based on the geometric mean Ksat and our field observations, these soils fall under Loading Rate Group SFR-B and could therefore be loaded from 19.5-26.0 in/yr. Parameters utilized in the SFR Irrigation Area Calculation Worksheet are described below: Potential Evapotranspiration (PET) and 80th Percentile Irrigation: Data from a nearby site (RDU International Weather Station) for a 77 year period was utilized in the model per NC DWQ policy guidelines for these parameters. This data is shown in the attached SFR Irrigation Area Calculation Worksheet (Attachment 4). Drainage Rate and Discussion of Drainage Coefficient Utilized in the SFR Irrigation Area Worksheet: We are proposing a drainage coefficient of 19.6%, which results in an actual Annual Hydraulic Loading Rate of 18.67 inches/year. Drainage coefficients were first introduced by US EPA as a way of "penalizing" wastewater movement through the soil profile since it was assumed that wastewater carried concentrations of organic substances that would form a "biomat", subsequently retarding the rate of this wastewater movement over time. It is generally held that the cleaner the wastewater, the higher the drainage coefficient that could be specified. Unfortunately, to our knowledge, no rigorous scientific testing has been conducted to assess how this coefficient can vary as a function of wastewater treatment. In this case, a relatively high level of treatment (TSII) is specified for the proposed waste stream, and a drainage coefficient of 19.6% allowed for an annual irrigation rate that was in the range of appropriate values for the loading rate groups provided by NC DEQ. Similar annual loading rates have been specified for soils in this region by NC DEQ for many years. In the case of this submittal, the Ksat data were found to be relatively consistent with one another. We recognize that the subsoil is restrictive as evidenced by the expansive clays noted in our profile descriptions and boring logs, but the proposed drain field is located on a broad linear side slope with 15-18% slopes, thereby preventing ponding of any applied wastewater. The soil characteristics are also consistent with one another as evidenced by the soil boring logs and soil profile descriptions, suggesting that unexpected soil inclusions should not be of concern. Standard Fertility Analysis Soils within the proposed spray area were also analyzed for current fertility conditions. Because of similar landscape type and management conditions, one composite sample was used to infer soil fertility status within the proposed dispersal area. The standard soil fertility analysis was completed by Waypoint Analytical Laboratories, Inc. Soil sample results are included in "Soil Analysis Report" provided by Waypoint Analytical (Attachment 5). Base saturation and exchangeable sodium percentage were determined by calculation to be 75% and 1.19% respectively. Appendix 5 also contains information on other soil parameters such as specific nutrient indices and pH. Conclusions Site disturbance could create unsuitable conditions for the proposed system and should therefore be minimized prior to construction. A permanent vegetative cover should be immediately established and/or maintained over the entire application field after installation. An individual wastewater system permit will be required for this property prior to obtaining a building permit. This will involve a detailed evaluation by the state to determine, among other things, system size and layout, drive/parking and building location. Only after developing this information can a final determination be made concerning specifics of system design and site utilization. The letter of denial regarding subsurface septic systems issued by Person County Environmental Health should also be included in the application for a surface application system. If you have any further questions, please feel free to call (336) 662-5487. Sincerely, G. Christopher Murray, MS NC Licensed Soil Scientist Piedmont Environmental Associates, PA List of Attachments: Attachment 1 - Soil Map Attachment 2 - Soil Profile Descriptions at Ksat Locations Attachment 3 - Ksat Summary and Field Data Attachment 4 - SFR Irrigation Area Workbook Pages (Including Project Information, Potential Evapotranspiration Worksheet, 80'' Percentile Precipitation Worksheet and Irrigation Area Calculation Worksheet) Attachment 5 - Standard Fertility Analysis Attachment 2 - Soil Profile Descriptions at Ksat Locations Project: Peninsula at Hyco % Slope: 9% Site: Ksat Nest 1 Vegetation: Wooded Name: Lot 63 Conducted By: CM Date: 8/22/23 Soil Series: Raslo/Siloam t O O C c •— U U N kCL d r d N <.i r N O Cn y k Wo r N x k 1PPIEDMONT ENVIRONMENTAL A S S O C I A T E S, P. A. w w a N � r N U) N C d d O N V V N Y I in in in A 0-3 10YR 5/6 - - - moist sl wk med qr fr ss s Bt 4-33 10YR 5/8 10YR4/2 few moist c mod med sbk vfi vs v C/R 33"+ - - - "dd - - - - - - - Legend: Textu re s sand I loam si silt sil silt loam c clay cl clay loam scl sandy clay loam sl sandy loam Sid silty clay loam Structure Grade Structure Type wk weak gr granular m moderate pl platy str strong pr prismatic cpr columnar abk angular blocky sbk subangular blocky sg single grained ma massive Structure Size f fine med medium Moist Consistencv fr friable vfr very friable fi firm vfi very firm Seasonal High Water Table: Depth (") Type (apparent/perched): 15 perched Attachment 2 - Soil Profile Descriptions at Ksat Locations Project: Peninsula at Hyco % Slope: 9% Site: Ksat Nest 2 Vegetation: Wooded Name: Lot 63 Conducted By: CM Date: 8/22/23 Soil Series: Raslo/Siloam t O O C c •— U U N kCL d r d N <.i r N O Cn y k Wo r N x k 1PPIEDMONT ENVIRONMENTAL A S S O C I A T E S, P. A. w w a N � r N U) N C d d O N V V N Y I in in in A 0-3 10YR 5/6 - - - moist sl wk med qr fr ss s Bt 4-27 10YR 5/8 10YR4/2 few moist c mod med sbk vfi vs v C/R 28"+ - - - "dd - - - - - - - Legend: Textu re s sand I loam si silt sil silt loam c clay cl clay loam scl sandy clay loam sl sandy loam Sid silty clay loam Structure Grade Structure Type wk weak gr granular m moderate pl platy str strong pr prismatic cpr columnar abk angular blocky sbk subangular blocky sg single grained ma massive Structure Size f fine med medium Moist Consistencv fr friable vfr very friable fi firm vfi very firm Seasonal High Water Table: Depth (") Type (apparent/perched): 15 perched Attachment 2 - Soil Profile Descriptions at Ksat Locations Project: Peninsula at Hyco % Slope: 9% Site: Ksat Nest 3 Vegetation: Wooded Name: Lot 63 Conducted By: CM Date: 8/22/23 Soil Series: Raslo/Siloam t O O C c •— U U N kCL d r d N <.i r N O Cn y k Wo r N x k 1PPIEDMONT ENVIRONMENTAL A S S O C I A T E S, P. A. w w a N � r N U) N C d d O N V V N Y I in in in A 0-3 10YR 5/6 - - - moist sl wk med qr fr ss s Bt 4-26 10YR 5/8 10YR4/2 few moist c mod med sbk vfi vs v C/R 26"+ - - - "dd - - - - - - - Legend: Textu re s sand I loam si silt sil silt loam c clay cl clay loam scl sandy clay loam sl sandy loam Sid silty clay loam Structure Grade Structure Type wk weak gr granular m moderate pl platy str strong pr prismatic cpr columnar abk angular blocky sbk subangular blocky sg single grained ma massive Structure Size f fine med medium Moist Consistencv fr friable vfr very friable fi firm vfi very firm Seasonal High Water Table: Depth (") Type (apparent/perched): 15 perched Appendix 3, Geometric Mean Ksat Data, The Peninsula at Hyco Lake, Lot 62163 Lot Nest Horizon Depth(") Ksat (in/hr) GeoMean Ksat (in/hr) 62/63 1 Bt 23 0.057 62/63 2 Bt 20 0.012 0.023 62/63 3 Bt 21 0.020 INFORMATION SITE ID # N63-1 LOCATION COORDINATE SYSTEM Date 5/8/23 Measurement Conducted B Job Name The Peninsula at H co Lake Job Number 3656 Weather Condition Temperature Soil Horizon Bt Source of Water Depth of Hole 23 Radius of Hole 2.54 Initial Depth of Water in Hole (H) 15.24 cm Final Depth of Water in Hole (H) 15.24 cm Ratio H/r 6.0000 Start Saturation Time Start of Stead State Condition Time No. of Reservoirs Used at Stead State 1 A factor in Equation [21 of Manual 0.001127 Hole Depth: 23 58.42 H;: 6 15.24 Hf: 15.24 Clock Time Water Level Reading Time Interval Change in Water Level Flow Volume Flow rate Q Flow rate Q Ksat Ksat Equivalent Ksat cm Minute cm cm3 cm3/min cm3/hour cm/hour cm/da d/sq. ft 16.12 37.5 16.48 36.2 36.00 1.3 26 0.72 43.3 0.05 1.17 0.29 17.32 33.2 44.00 3 60 1.36 81.8 0.09 2.21 0.55 17.58 30.3 26.00 2.9 58 2.23 133.8 0.15 3.62 0.89 18.30 25.2 32.00 5.11 102 3.19 191.21 0.22 5.17 1.27 19.01 20.1 31.00 5.1 102 3.29 197.4 0.22 5.34 1.32 19.31 17.3 30.00 2.8 56 1.87 112.0 0.13 3.03 0.75 20.03 15 32.00 2.3 46 1.44 86.2 0.10 2.33 0.57 20.31 12.2 28.00 2.8 56 2.00 120.0 0.14 3.25 0.80 21.01 8.9 30.00 3.3 66 2.20 132.0 0.15 3.57 0.88 21.30 5.7 29.00 3.2 64 2.21 132.4 0.15 3.58 0.88 AVERAGE cm/hr: 0.144 in/hr: 0.057 INFORMATION SITE ID # N63-2 LOCATION COORDINATE SYSTEM Date 5/8/23 Measurement Conducted B Job Name The Peninsula at H co Lake Job Number 3656 Weather Condition Temperature Soil Horizon Bt Source of Water Depth of Hole 20 Radius of Hole 2.54 Initial Depth of Water in Hole (H) 15.24 cm Final Depth of Water in Hole (H) 15.24 cm Ratio H/r 6.0000 Start Saturation Time Start of Stead State Condition Time No. of Reservoirs Used at Stead State 1 A factor in Equation [21 of Manual 0.001127 Hole Depth: 20 50.8 H;: 6 15.24 Hf: 6 15.24 Clock Time Water Level Reading Time Interval Change in Water Level Flow Volume Flow rate Q Flow rate Q Ksat Ksat Equivalent Ksat cm Minute cm cm3 cm3/min cm3/hour cm/hour cm/day d/sq. ft 16.19 29.4 16.48 28.6 29.00 0.8 16 0.55 33.1 0.04 0.90 0.22 17.32 26.1 44.00 2.5 50 1.14 68.2 0.08 1.84 0.45 17.59 25.4 27.00 0.7 14 0.52 31.1 0.04 0.84 0.21 18.32 24.3 33.00 1.11 22 0.67 40.01 0.05 1.08 0.27 19.01 23.7 29.00 0.6 12 0.41 24.8 0.03 0.67 0.17 19.31 23.2 30.00 0.5 10 0.33 20.0 0.02 0.54 0.13 20.02 22.4 31.00 0.8 16 0.52 31.0 0.03 0.84 0.21 20.32 21.8 30.00 0.6 12 0.40 24.0 0.03 0.65 0.16 21.01 21.2 29.00 0.6 12 0.41 24.8 0.03 0.67 0.17 21.30 20.5 29.00 0.7 14 0.48 29.0 0.03 0.78 0.19 AVERAGE cm/hr: 0.029 in/hr: 0.012 INFORMATION SITE ID # N63-3 LOCATION COORDINATE SYSTEM Date 5/8/23 Measurement Conducted B Job Name The Peninsula at H co Lake Job Number 3656 Weather Condition Temperature Soil Horizon Bt Source of Water Depth of Hole 21 Radius of Hole 2.54 Initial Depth of Water in Hole (H) 15.24 cm Final Depth of Water in Hole (H) 15.24 cm Ratio H/r 6.0000 Start Saturation Time Start of Stead State Condition Time No. of Reservoirs Used at Stead State 1 A factor in Equation [21 of Manual 0.001127 Hole Depth: 21 53.34 H;: 6 15.24 Hf: 15.24 Clock Time Water Level Reading Time Interval Change in Water Level Flow Volume Flow rate Q Flow rate Q Ksat Ksat Equivalent Ksat cm Minute cm cm3 cm3/min cm3/hour cm/hour cm/day d/sq. ft 16.08 14.3 16.48 14.1 40.00 0.2 4 0.10 6.0 0.01 0.16 0.04 17.33 13.2 45.00 0.9 18 0.40 24.0 0.03 0.65 0.16 18.02 11.3 29.00 1.9 38 1.31 78.6 0.09 2.13 0.52 18.31 10.5 29.00 0.81 16 0.55 33.11 0.04 0.90 0.22 19.01 9.1 30.00 1.4 28 0.93 56.0 0.06 1.51 0.37 19.32 8.4 31.00 0.7 14 0.45 27.1 0.03 0.73 0.18 20.03 7.5 31.00 0.9 18 0.58 34.8 0.04 0.94 0.23 20.31 6.6 28.00 0.9 18 0.64 38.6 0.04 1.04 0.26 21.01 5.4 30.00 1.2 24 0.80 48.0 0.05 1.30 0.32 21.32 4.2 31.00 1.2 24 0.77 46.5 0.05 1.26 0.31 AVERAGE cm/hr: 0.050 in/hr: 0.020 Project Name: Peninsula at Hyco Lake, Lot 62/63 Facility Address: Adjacent to 2391 Zion Level Church Rd Semora, NC 27343 County: Person County, NC Prepared by: G. Christopher Murray, L.S.S. Project Design Flow = 360 gal/day # of Bedrooms Required Flow 2 bedrooms 240gal/day 3 bedrooms 360 gal/day 4 bedrooms 480 gal/day 5 bedrooms 600 gal/day 6 bedrooms 720 gal/day SFR-LRW 9-08 Project Name: Peninsula at Hyco Lake, Lot 62/63 Location of Temperature Data: RDU Int. Airport - Raleigh, NC Starting Year of Data Record: 1946 Ending Year of Data Record: 2023 Period of Record (years): 77 Source of Data: State Climate Office of North Carolina Site Latitude (degrees) 35.79 Calculated PET: 32.80 inches Mean Monthly Temperature (degrees F) Daylight Hours / 12 Heat Index Calculated PET (inches) January 40.5 0.87 0.92 0.28 February 43.3 0.85 1.41 0.43 March 50.5 1.03 2.98 1.17 April 60.0 1.09 5.56 2.43 May 67.4 1.21 7.96 3.97 June 74.6 1.22 10.53 5.37 July 77.9 1.23 11.76 6.14 August 76.5 1.16 11.25 5.52 September 70.7 1.03 9.10 3.89 October 60.3 0.97 5.67 2.20 November 50.8 0.86 3.04 0.99 December 43.1 0.85 1.38 0.42 Tota I = 71.57 32.80 SFR-LRW 9-08 Project Name: Peninsula at Hyco Lake, Lot 62/63 Location of Precipitation Data: RDU Int. Airport - Raleigh, NC Starting Year of Data Record: 1946 Ending Year of Data Record: 2023 Period of Record (years): 77 Source of Data: State Climate Office of North Carolina 80th Percentile Annual Precipitation: 54.48 Total = Mean Monthly Precipitation %of Mean Annual Precipitation 80th Percentile Monthly Precipitation 3.27 7.45 4.06 3.00 6.83 3.72 3.64 8.29 4.52 3.27 7.45 4.06 3.64 8.29 4.52 4.02 9.15 4.99 5.10 11.61 6.33 4.67 10.63 5.79 4.07 9.27 5.05 2.97 6.76 3.68 3.05 6.94 3.78 3.22 7.33 3.99 43.92 100.00 54.48 SFR-LRW 9-08 Project Name: Peninsula at Hyco Lake, Lot 62/63 Annual Hydraulic Design Flow = 360 gal/day Loading Rate = 18.67 inch/yr SFR Loading Rate Group: SFR-B Limiting Soil Ksaf = 0.023 inch/hour Irrigation Area = 11,290 square ft Drainage Coefficient = 0.196 = 0.25919 acres Drainage Rate = 0.1090264 inch/day (Formula: Ksar " Drainage Coefficient ` 24) I Number of Days in the Month PET in/moL It Vertical Drainage in/mo 80th Percentile Monthly Precipitation in/mo Maximum Allowable Irri ation in/mo Maximum Allowable Irrigation allons/da Maximum Allowable Irrigation allons/month January 31 0.28 3.35 4.47 0.00 0 0 February 28 0.43 3.02 3.72 0.00 0 0 March 31 1.17 3.35 4.52 0.01 1 43 April 30 2.43 3.24 4.06 1.61 378 11,334 May 31 3.97 3.35 4.52 2.80 636 19,727 June 30 5.37 3.24 4.99 3.62 850 25,500 July 31 6.14 3.35 6.33 3.16 718 22,263 August 31 5.52 3.35 5.79 3.07 697 21,621 September 30 3.89 3.24 5.05 2.08 488 14,636 October 31 2.20 3.35 3.68 1.86 422 13,097 November 30 0.99 3.24 3.78 0.45 106 3,179 December 31 0.42 3.35 3.99 T 0.00 0 0 TOTAL = 365 32.80 39.43 54.89 Formulas: (Max. Allowable Irrigation) = (PET) + (Drainage) - (Precipitation) SFR Loading Rate Table SFR Maximum Annual Geometric Mean Loading Loading Rate Ksar Range Rate (in/yr) (in/hr) GrouD Low - High Low - High SFR-A 26.0 - 50.0 >0.05 SFR-B 19.5 - 26.0 0.015 - 0.05 SFR-C 13.0 -19.5 0.003 - 0.015 SFR-D 0.0 -13.0 0.0 - 0.003 Assignment to a SFR Loading Rate Group for each 15A NCAC 02T .0600 permit application shall be determined by the geometric mean of insitu saturated hydrualic conductivity data collected in the most restrictive horizon for each soil mapping unitwithin the irrigation area. 18.67 4297.47 131,400 Required Flow 2 bedrooms 240 al/day 87,600 al/yr 3 bedrooms 360 gal/day 131,400 gal/yr 4 bedrooms 480 gal/day 175,200 gal/yr 5 bedrooms 600 gal/day 219,000 gal/yr 6 bedrooms 720 gal/day 262,800 gal/yr Maximum allowable irrigation: 131,400 gal/yr The Maximum Allowable Irrigation number must be greater than or equal to the required flow. SFR-LRW 9-08 • Waypoi nt.M 2850 Daisy Lane, Wilson, -9973 Main 252-206-1721 °Fax 252-20206-9973 ANALYTICAL "Every acre... Every year®' www.waypointanalytical.com SOIL ANALYSIS Client Piedmont Enviromental Assoc., P. A. 216 South Swing Road Suite 1 Greensboro NC 27310 Lab No: 22088 Grower: Report No: PIEDMONT ENVIRONMENTAL Cust No: Date Printed: Date Received PO: Farm: HYCO Page Field: Sample ID: 62 23-170-0526 06526 06/21 /2023 06/19/2023 21 of 27 Test Method Results SOIL TEST RATINGS Calculated Cation Exchange Capacity w Low Medium Optimum Soil pH 1:1 5.5 J - 5.5 meq/100g Buffer pH BPH 6.79 %Saturation Phosphorus (P) M3 4 ppm % sat meq K 2.3 0.1 Ca 50.4 2.8 Mg 21.8 1.2 H 25.5 1.4 Na 0.9 0 Potassium (K) M3 50 ppm Calcium (Ca) M3 554 ppm Magnesium (Mg) M3 144 ppm Sulfur (S) M3 6 ppm Boron (B) M3 0.2 ppm Copper (Cu) M3 0.9 ppm Iron (Fe) M3 188 ppm K/Mg Ratio: 0.10 ❑ Manganese (Mn) M3 149 ppm Ca/Mg Ratio: 2.31 ❑ Zinc (Zn) M3 1.4 ppm liiiiiiiiiiii■ Sodium (Na) M3 11 ppm Soluble Salts Organic Matter LOI 0.3% Estimated N Release 48 Ibs/acre Nitrate Nitrogen SOIL FERTILITY GUIDELINES Crop : Rec Units: (Ibs) LIME (tons) N P205 K 20 Mg S B Cu Mn Zn Fe Crop : Rec Units: Comments : M3 - Mehlich 3 BPH - Lime Index HIM - Humic Matter LOI - Loss On Ignition 1:1 - Water pH Analysis prepared by: Waypoint Analytical Carolina, Inc. East Coast Investors, LLC Lot 62 & 63 Peninsula at Hyco Lake Person County, North Carolina %111111111 SEAL = v 051201 _ '7O FHGINE�� •�� �` Engineering Plans MacConnell & Associates, P.C. 501 Cascade Pointe Lane, Suite 103 Cary, North Carolina 27513 P.O. Box 129 Morrisville, North Carolina 27560 Phone: (919) 467-1239 Fax: (919) 319-6510 w F- SUNBELT LAND MANAGEMENTLU Lu LOT 62 & 63 PENINSULA AT HYCO LAKE Bs•I Cunningham ~ragCew;I;Ile s,„ ? ,;hcctnul �rDVd� ptI , "I'scl 0,Vtz T'3a5L�,.. t 0 -J 4 '"IC• :"� � CIT remora 16 J CI CI •r. IA+Ilfiams�iHe: A VICIN ITY MAP COPYRIGHT 0 2023 SURFACE DRIP SYSTEM WITH TS-II PRETREATMENT PROJECT No. C08662.00 PERSON COUNTY PIN: TBD SCHEDULE OF DRAWINGS: C-100 COVER SHEET C-101 GENERAL NOTES C-102 SYSTEM SCHEMATICS & MAINTENANCE SCHEDULE C-103 OVERALL SITE PLAN C-104 TREATMENT AND DISPOSAL PLAN C-105 500'AREA AND SOILS MAP C-106 TREATMENT SYSTEM DETAIL KEY C-107 DOSING CALCULATIONS AND DRIP LINE CHARTS C-108 SUPPLY LINE PLAN AND PROFILE D-101 DETAILS 1 OF 11 D-102 DETAILS 2 OF 11 D-103 DETAILS 3 OF 11 D-104 DETAILS 4 OF 11 D-105 DETAILS 5 OF 11 D-106 DETAILS 6 OF 11 D-107 DETAILS 7 OF 11 D-108 DETAILS 8 OF 11 D-109 DETAILS 9 OF 11 D-110 DETAILS 10 OF 11 D-111 DETAILS 11 OF 11 `HYCO LAKE o �0. 2 �q¢ €a 00 r STA�BOA0.0 PO NT O � e ERSAI x� tO�sN p B m 0 HYCO LAKE EpPPE al s �d L O C A T I O N M A P ���.•�'N�Cq�Ro, O� 111 S/ do � 51201 O �tiG INE�� " FLG c. Balza� H W Y Z " Lu ZC, } Q oa�o� QQQZQ�Wa O J LL .: U) H Z mz cn D d cn E rn Lo N v N O N O `m 3 m GENERAL NOTES SITE RESTORATION 1. CONTRACTOR IS RESPONSIBLE FOR COORDINATION OF ALL TRADES AND SUBCONTRACTORS. CONTRACTOR IS ALSO RESPONSIBLE FOR FIELD VERIFYING DIMENSIONS, ELEVATIONS, AND LOCATIONS OF 1. BACKFILL WITH SUITABLE LOOSE MATERIAL (SANDY LOAM TO SANDY CLAY LOAM) FREE OF LARGE OR J a� ALL EXISTING CONDITIONS AND UTILITIES. DAMAGING OBJECTS, SEED AND STRAW BACKFILLED AREAS (OR SOD WHEN REQUIRED). w W C � 2. CONTRACTOR IS RESPONSIBLE FOR INSTALLING SYSTEM IN ACCORDANCE WITH ALL STATE & LOCAL REGULATIONS & POLICIES. 2. PROVIDE EROSION PROTECTION FOR BACKFILL MATERIAL IN ACCORDANCE WITH STATE AND COUNTY z 0 (� 3. CONTRACTOR SHALL COMPLY WITH ALL APPLICABLE SOIL EROSION AND SEDIMENTATION CONTROL REQUIREMENTS. STANDARDS AND MAINTAIN UNTIL PERMANENT PROTECTION IS ESTABLISHED. W Z 4. CONTRACTOR SHALL COMPLY WITH ALL APPLICABLE OSHA, NCDOT AND LOCAL SAFETY REQUIREMENTS. 3. BACKFILL SHOULD BE GRADED TO PREVENT THE INFILTRATION OF SURFACE WATER AND DIVERT STORM 0 5. CONTRACTOR IS RESPONSIBLE FOR REPAIRING ALL CONSTRUCTION DAMAGE EXPEDITIOUSLY AND AT NO ADDITIONAL COST TO THE OWNER. WATER RUN-OFF AWAY FROM THE SYSTEM. WHEN ADDITIONAL FILL IS REQUIRED, IT SHOULD BE PLACED 6. LOCATION OF DRIPPER LINES AS SHOWN ARE APPROXIMATE. LINES SHALL LAY PARALLEL TO CONTOURS Q ±36". AFTER SYSTEM IS INSTALLED FROM THE EDGES CROWNED IN THE MIDDLE AND FEATHERED OUT 10' 7. SUPPLY AND RETURN LINES MAY BE LAID IN SAME TRENCH. SEPARATION IS FOR ILLUSTRATION PURPOSES ONLY. BEYOND THE DISPERSAL AREA. FILL SHOULD BE TEXTURE GROUP II OR III AND FREE OF LARGE STONES 8. LAYOUT OF THE APPLICATION AREA IS BASED ON FIELD DELINEATION OF SOILS AREA BY A LICENSED SOILS CONSULTANT. ANY CHANGE IN LAYOUT BY THE CONTRACTOR OUTSIDE THE AND ORGANIC DEBRIS. TOP 2" SHOULD BE SUITABLE FOR ESTABLISHMENT OF LAWN. ~ DELINEATED AREA SHALL BE APPROVED BY THE SOILS CONSULTANT, COUNTY HEALTH DEPARTMENT, AND THE ENGINEER. W Y Z 9. DRAIN ALL ROOF AND TOE DRAINS AWAY FROM DRIP FIELD AND TREATMENT UNITS. TREATMENT UNITS Lu W J H 2 Z 10. PROVIDE MINIMUM 100 FEET OF SEPARATION FROM ANY WELL TO WASTEWATER TREATMENT UNITS AND DISPOSAL SYSTEMS IF APPLICABLE. a O } a } U 11. WASTEWATER AND IRRIGATION SYSTEMS SHALL COMPLY WITH IWWS-2015-3-R2 1. SAMPLING CHAMBER OR MEANS OF COLLECTING A FRESH SAMPLE SHALL BE PROVIDED FOR ALL TS-1 & Z (� W Z 12. ALL PIPE SHALL BE SCHEDULE 40 PVC UNLESS OTHERWISE NOTED. TS-2 SYSTEMS. IT IS PREFERRED THAT THE INLET OF THE PUMP CHAMBER BE USED AS THE SAMPLING < = o2S d p 13. VORTEX FILTER IN HYDRAULIC UNIT SHALL BE INSPECTED UPON EACH REGULARLY SCHEDULED MAINTENANCE VISIT. LOCATION WHEN A PUMP IS REQUIRED. p ~ N X W O a p U 14. INSTALLER IS RESPONSIBLE FOR ENSURING DISPERSAL AREA WAS PROPERLY CLEARED & SOIL MOISTURE CONDITIONS ARE CONDUCIVE FOR INSTALLATION PRIOR TO BEGINNING INSTALLATION. 2. SYSTEM INSTALLATION MUST COMPLY WITH ALL LOCAL ORDINANCES AND POLICIES. Z a W d Z 15. EJECTOR PUMP MAY BE REQUIRED FOR BASEMENT FIXTURES. INSTALLER IS RESPONSIBLE FOR VERIFICATION. � 10U= p J a O 0 16. KEEP ALL EXCAVATIONS 20' FROM INSTALLATION AREA. OPERATING REGIME FOR DRIP IRRIGATION SYSTEM w z w = w 17. KEEP WELL AND SEPTIC SYSTEM OUT OF ANY UTILITY EASEMENTS AND AT LEAST 10' FROM UTILITY LINES. 1. SYSTEM IS DESIGNED AND CONTROLS (MICROPROCESSORS) ARE PROVIDED TO DOSE THE E-Z TREAT co Z p d Z W U - 18. DO NOT INSTALL LAWN IRRIGATION SYSTEMS WITHIN 20 FEET OF DISPERSAL AREA. TREATMENT UNITS. SEE SHEET C-106 FOR 'ON" AND 'OFF" TIME SETTINGS. PUMPED DRIP IRRIGATION FLOW p d 19. DO NOT CONNECT WATER TREATMENT SYSTEMS, CONDENSATIONS DRAINS OR SUMP PUMPS TO ONSITE SYSTEM. 20. IF A PRE -CONSTRUCTION MEETING REQUIRED BY PERMIT, PLEASE CALL TO SCHEDULE. SHALL PASS THROUGH A FLOW METER. WHEN THE PREPROGRAMMED VOLUME IS REACHED THE ACTIVE M 21. ANY DEVIATION FROM THIS DESIGN MUST BE APPROVED BY THE LOCAL HEALTH DEPARTMENT AND THE ENGINEER PRIOR TO INSTALLATION. PUMP WILL BE DE -ENERGIZED. THE PUMP WILL ALSO DE -ENERGIZE IF THE LOW WATER LEVEL "PUMP 22. ELECTRICAL WIRING SHOULD BE INSTALLED BY A LICENSED ELECTRICAL CONTRACTOR, ACCORDING TO NEC, STATE AND LOCAL ELECTRICAL CODES, AS APPLICABLE. OFF" SWITCH IS ACTIVATED. SEE SHEET C-106 FOR FIELD DOSING INFORMATION. V C 0 23. CONTRACTOR IS TO INSTALL TANKS ON UNIFORMLY FIRM AND STABLE COMPACTED GROUND, CRUSHED STONE IS RECOMMENDED TO PROVIDE UNIFORM SUPPORT TO TANK BOTTOM ESPECIALLY IN 2. IF THE HIGH WATER LEVEL "ALARM" FLOAT SWITCH IS ACTIVATED, THE SYSTEM WILL BEGIN ITS OPERATION U 04 N O POOR, WET OR ROCKY SOILS. OF DELIVERING THE PREDETERMINED DOSE VOLUME, AND SHALL ALSO ENERGIZE THE AUDIBLE AND FLASHING m co C m m 24. ALL TANKS MUST BE WATER -TIGHT AND CONFORM TO APPLICABLE LOCAL AND STATE REGULATIONS AND POLICIES. ALARM FIXTURES (ONCE ENERGIZED, THE FLASHING AND AUDIBLE ALARM UNITS WILL ONLY BE RESET m O U Q p 25. ALL PVC JOINTS SHALL BE PRIMED AND CHEMICALLY FUSED UNLESS THREADED. MANUALLY OR BY REACHING LOW LEVEL CONDITIONS). � 26. MAXIMUM COVER OVER TANKS AND DISTRIBUTION BOXES VARIES BY MANUFACTURER AND COUNTY. o c DISPERSAL FIELD CORNERS OR PROPERTY CORNERS SHOULD BE MARKED BY A LICENSED SURVEYOR PRIOR TO CONSTRUCTION. CONTRACTOR IS RESPONSIBLE FOR VERIFYING LOCATIONS MATCH 3. THE MICROPROCESSOR WILL ALSO CONTROL THE PERIODIC BACK WASHING OF THE VORTEX FILTER AND THE CD27. � THE CONSTRUCTION DRAWING. FLUSHING OPERATION OF THE SUB -FIELD LATERAL NETWORK. FILTER BACK WASHING SHALL OCCUR AT THE W N 28. REFER TO SITE DRAWING FOR ANY SPECIAL REQUIREMENTS. END OF EACH DOSE CYCLE. SYSTEM LATERAL FLUSHING SHALL OCCUR WHEN THE MICROPROCESSOR Z 29. MACHINERY SHOULD AVOID PERCOLATION AREA. SENSES RECOGNITION OF A PRESET ELAPSED TIME SINCE LAST SYSTEM FLUSH (USUALLY 28 DAYS). THE � N 30. MACHINERY SHOULD NOT TRAVERSE EXCAVATED/EXPOSED PERCOLATION AREA. SYSTEM SHALL BE CONFIGURED TO ALLOW FOR MANUAL INITIATION OF BACK WASHING FILTERS OR W Q 0 z Z x - 31. ALL SUPPLY AND RETURN LINES NOT DESIGNED TO DRAIN BACK SHOULD BE PROTECTED FROM FREEZING. SUB -FIELD SYSTEM FLUSHING. J JO 04 U X 4. THE CONTROL PANEL SHALL INCLUDE, BUT NOT BE LIMITED TO, AN "AUTO/MANUAL" SYSTEM CONTROL u Q p 2 LL SWITCH, STOP/START SWITCH FOR EACH PUMP, NON-RESETTABLE ELAPSED TIME RECORDER FOR EACH 0 = co0 M PUMP, AND INDIVIDUAL PUMP RUN LIGHTS. m O Z a 5. THE CONTROL PANEL SHALL BE A NEMA 4X ENCLOSURE. ALL SUPPORTING CONTROL UNITS, IF NOT p O W m Z ELECTRICAL NOTES HOUSED WITHIN THE CONTROL PANEL, SHALL BE IN A SEPARATE NEMA 4X ENCLOSURE. Q J cn a a 1. ONE CONTROL PANEL WILL CONTROL THE WASTEWATER SYSTEM. "SPECIAL REQUIREMENT** UV � 2. PANEL SHALL BE APPROXIMATELY 14.5" WIDE X 19.2" HIGH AND IS A NEMA 4X, UL RATED ENCLOSURE. PANEL SHALL BE SUPPLIED BY THE SYSTEM DISTRIBUTOR. 1. CONTACT MIKE STIDHAM (707-408-2916, MSTIDHAM@EZTREAT.NET), FOR ORDERING E-Z TREAT `D 0 Lu 3. THE PANEL SHALL BE MOUNTED BY THE ELECTRICIAN WITHIN 10' OF THE TANK UNITS, AND 48" - 60" OFF THE FINISHED GRADE TO THE BOTTOM OF THE ENCLOSURE. EQUIPMENT OR FOR LOCAL DISTRIBUTOR INFORMATION. 4. THE INSTALLER'S ELECTRICIAN SHALL MAKE THE INTERNAL PANEL CONNECTIONS OF THE PUMP/UV AND CONTROL CORDS. CONTROL PANEL SHALL CONTAIN A WIRING SCHEMATIC IDENTIFYING ALL 2. PRECAST TANK MODEL NUMBERS SHOWN ON PLAN ARE PRE -APPROVED. "EQUAL TANKS" SHALL BE TERMINAL CONNECTIONS. THE SYSTEM INSTALLER SHALL BUNDLE AND MARK EACH CORD WITH THE APPROPRIATE IDENTIFICATION AND SECURE IN THE ACCESS RISER AT THE DIFFERENT PUMP/UV EQUIVALENT SIZE OR GREATER BY SHOAF PRECAST, INC (336-787-5826, INFOOSHOAFPRECAST.COM) POINTS. WHICH ARE ALSO PRE -APPROVED. OTHER TANKS MAY BE USED WHEN PRE -APPROVED BY ENGINEER. 1 /� 5. CONTROL PANEL REQUIRES A DEDICATED CIRCUIT OF 20 AMPS, 115 VOLTS, SINGLE PHASE SUPPLIED FOR THE PUMP. 6. CONTROL PANEL REQUIRES A DEDICATED CIRCUIT OF 20 AMPS, 115 VOLTS SUPPLIED FOR THE BOTH ALARMS. ^l W I-�1 7. CONTROL (DRIP) PANEL REQUIRES A DEDICATED CIRCUIT OF 20 AMPS, 115 VOLTS, SINGLE PHASE SUPPLIED FOR THE PUMPS. 8. CONTROL PANEL REQUIRES A DEDICATED CIRCUIT OF 30 AMPS, 115 VOLTS SUPPLIED FOR SOLENOID VALVE HEATER. (� 9. THE ULTRAVIOLET DISINFECTION UNIT REQUIRES A DEDICATED CIRCUIT OF 20 AMPS, 115 VOLTS. .--I 10. A MINIMUM CONDUIT SIZE OF 1 %" SHALL BE FURNISHED AND INSTALLED BY THE ELECTRICIAN AS A CONNECTION BETWEEN CONTROL PANEL AND EACH RESPECTIVE TERMINATION POINTS OUT IN 0 THE TANK AREA. ,Ow N C ••i 11. ALL OPEN CONDUIT ENDS SHALL HAVE REMOVABLE CLAY TYPE DUCT SEAL EMBEDDED TO PREVENT GASSES AND MOISTURE FROM ENTERING THE CONTROL PANEL. DO NOT USE PERMANENT ��� 0 V SILICONE OR EXPANDABLE FOAM PRODUCTS. QQ' 12. ALL PUMP AND FLOAT CONTROL CORDS SHALL BE SUPPLIED WITH EITHER 30' OR 50' LEADS. THIS WILL HELP KEEP SPLICES TO A MINIMUM AND SHOULD BE AVOIDED IF AT ALL POSSIBLE. IF A SPLICE MUST BE USED, IT MUST BE MADE ABOVE GRADE IN A PLASTIC NEMA 4X JUNCTION BOX. �r 13. ALARMS SHALL BE AUDIBLE AND VISUAL. 51201 14. AUDIBLE/VISIBLE ALARMS SHALL BE EXTERNAL TO ANY STRUCTURE.ft � �tiGINE�� l� G "°••. /o C. BPS a�za MAINTENANCE SCHEDULE JLM FREQUENCY TASK SEPTIC TANK 3 - 6 MONTHS CHECK FOR SOLIDS ACCUMULATION, BLOCKAGES, OR BAFFLE DAMAGE, IN/EXFILTRATION, PUMP SEPTAGE. CLEAN EFFLUENT FILTER. 12 MONTHS PUMP OUT ACCUMULATED SOLIDS IF NECESSARY. REPLACE EFFLUENT FILTER EACH TIME SEPTIC TANK IS PUMPED. RECIRCULATION TANK WEEKLY CHECK PUMPS, CONTROLS, ALARMS, FIELD DOSING TANK ELAPSED TIME METERS. 3-6 MONTHS CHECK FOR SOLIDS ACCUMULATION, IN/EXFILTRATION. 12 MONTHS PUMP OUT ACCUMULATED SOLIDS IF NECESSARY. SUPPLY LINES, FORCE MAINS 6-12 MONTHS DISTRIBUTION FIELDS 2-4 WEEKS 3-6 MONTHS PUMPS, FILTER SYSTEM, MONTHLY & DISTRIBUTION PIPING QUARTERLY SEMIANNUALLY ANNUALLY E-Z TREAT TREATMENT MONTHLY SYSTEM ANNUALLY ULTRAVIOLET DISINFECTION 3-6 MONTHS UNIT ANNUALLY CHECK FOR EXPOSED PIPE AND LEAKAGE. MOW VEGETATIVE COVER IF APPLICABLE. CHECK FOR EROSION, OR PONDING OF EFFLUENT. CHECK FLOW METER READOUT AND COMPARE TO RECORDED FLOWS, CHECK PUMPS AND FILTER SYSTEM FOR LEAKS. REMOVE FILTER COVERS AND INSPECT FOR ACCUMULATION OF DEBRIS. CHECK DIFFERENTIAL PRESSURE GAUGE BEFORE AND AFTER FLUSHING (D.P. SHOULD RETURN TO ORIGINAL OPERATING D.P.) CHECK PUMPS FOR ABNORMAL VIBRATION, TEST THE ALARM FUNCTIONS. REMOVE AND LUBRICATE 0-RINGS ON FILTER CANISTER, REPLACE IF DAMAGED, CLEAN 1-1/2" FILTER SCREEN AT HYDRAULIC UNIT. REMOVE FILTER SCREEN AND REPLACE, CLEAN USED FILTER SCREEN IN MILD ACID SOLUTION AND STORE FOR NEXT ANNUAL REPLACEMENT, FLUSH FIELD SUPPLY AND RETURN MANIFOLDS BY REMOVING (UNSCREWING) AIR/VACUUM BREAKERS. INSPECT CONTROL/ALARM PANEL, PUMPING SYSTEM EFFLUENT FILTERS/PUMP SCREENS, RECIRCULATION TANK, AND E-Z TREAT POD FILTER. (TREATMENT UNIT) CHECK AND/OR REPLACE BATTERIES IN FLOW METER. (IF APPLICABLE) WIPE (CLEAN) UV LAMPS. CHECK INTENSITY AND REPLACE LAMP WHEN REQUIRED. CHANGE BULB. Z RAIN SENSOR 0 I N E-Z TREAT POD FILTER CIDSEE ORIENTATION ON C-104 4" SCH. 40 PVC 1 1,000 GALLON 3,500 GALLON FIELD DWELLING - SEPTIC TANK UV DOSING/STORAGE TANK (10'-0" MIN. ) MIN, 1-1/4" SCH. 40 PVC RETURN FROM FIELDS SEE ORIENTATION ON C-105 FIN. GRADE t434.2' - DWELLING - ----- --- GROUND EL. t432.5' F.F.E. t435.7' ---- (ASSUMED) C 0 V ® INV. IN EL. INV. OU' t430.0' EL. t432.7' (DWELLING) t429.8' 1,000 GALLON SEPTIC TANK FORCE MAIN GROUND — GRAVITY LINE FLOW DIRECTION 10. 1-1/4" SCH. 40 PVC RETURN LINE FROM ZONE 1 & 2 1,000 GALLON E-Z TREAT RECIRCULATION TANK E-Z TREAT POD FILTER INV. OUT EL. t429.0' -1/2" SCH. 40 PVC SUPPLY TO ZONE 1 -1/2" SCH. 40 PVC SUPPLY TO ZONE 2 ZONE VALVES HYDRAULIC UNIT GROUND EL. t430.4' HYDRAULIC T UNIT INV. IN EL. SS INV. IN EL. 428.4' L. ±427.6. 1,000 GALLON E-Z TREAT 3,500 GALLON RECIRCULATION TANK DOSING/STORAGE TANK NOTES: 4" SCH. 40 PVC 4" SCH. 40 PVC 1. TANK LOCATIONS ARE NOT TO SCALE SO AS TO SHOW EACH TREATMENT ITEM. 2. ALL GRAVITY LINES SHALL BE 2% SLOPE MIN. �� TREATMENT SYSTEM SCHEMATIC / PROFILE ZONE VALVES TO ZONES 1 & 2 HIGHEST POINT ON IRRIGATION FIELD = t448.6' N CA RO` S7� �- �� 51201 G Q.,��.` l� •••. /o C. BPa�z� od W U coZ J W a Z 0 0 co=ZU uay cot H LULU W LU W 00 aum>-a Z �pcnW <=o�aIx H N IX W oa�o� Z W d -J ch W Z I _ Z LU d c cn O M O N V N N U ik c O co l� l t= m C) U 0 iy O O 0 L M n W � N � Q co N Z Wa O� Z Z rn M = �O�aX W X U Q LL zUmMrn a~OzC'4 D 0 LLT Q Z J co Q � D rn U U CD Ow � H W� O O U � C� �y i LEGEND / ADJACENT BOUNDARY J Q M BOUNDARY (PROPERTY) _j O \ \ = -- 1 � RIGHT-OF-WAY LJ W C� CONTOURS - INDEX 0 N CONTOURS - INTERMEDIATE M �� M WATERSAIL WAY \ \ �� M 60' PRIVATE R/W � x FENCE \ t Al — — — — — — — EDGE OF PAVEMENT M \ • • • • • • • • • • 100 YEAR FLOOD PLAIN ~ / Z W H W INITIAL DRIP LINES Z LU a W LU U / � P OPERTY SETBA �- ` M RETURN LINES Q o U) F Z / W WAIVER \\ M ` SUPPLY LINES Z } U) LLI Z ....... \ DIVERSION BERM N W =Q SOIL BOUNDARY a U �� z < Lu z / / v M ` SUITABLE SOILS BOUNDARY ? OJ U = 0 PROPOSED \ M _ RETURN MANIFOLD F_ Z LL = W DRIVEWAY / \ ® SUPPLY MANIFOLD m Z �_ d LU ---A/ SURFACE \ CO CLEAN OUT � d / IRRIGATION I PROPOSED � y� CP CONTROL PANEL U) / DRIPFIELD DISPOSAL h / AREA WIRE \ ` E2RT E2 TREAT RE -CIRCULATION TANK FENCEO M LOT \ ` ` E-Z E2 TREAT TREATMENT UNIT U N N _ a .. 04 - / 63 / h / / \ I \ \ FDT FIELD DOSING TANK U W M COMPLIANCE BOUNDARY AT / / \ ST SEPTIC TANK m mO U Q PROPERTY LINE PER 15A O4 �— �� \ M METER I W NCAC 02L .0107 (a)- \ / HU HYDRAULIC UNIT iy CD/ \ CD/ I UV ULTRAVIOLET DISINFECTION e7 N / - ZV ZONE VALVE F_ n Q 3-BEDROOM % SUITABLE SOILS co w 4k PROPOSED / BOUNDARY uj Q O / DWELLING ��� -\ \ I \ \ z -t°°" JO�QX W aXUQ NOTES a�°z REVIEW BOUNDARY AT MID POINT OF / / ��\ \ LOT 1. TOPO TAKEN FROM NC FRIS. Q Z d J co COMPLIANCE BOUNDARY AND WASTE / / / LOT 62 & 63 \ m \ 64 2. DISPOSAL FIELD AND TREATMENT SYSTEM U } BOUNDARY (15A NCAC 02L .0108) / / � W SHALL FOLLOW DEEDED SETBACKS OR \ WAIVERS. U U J LOT 3. THIS IS NOT A SURVEY. CD 0 W) 2 H 65 4. WATER SERVICE LINE SHALL MAINTAIN A 10' HORIZONTAL SETBACK FROM SURFACE IRRIGATION DRIPFIELD. • ct 10 o 51201 IN pQ, ct c. Bp. C) — / GRAPHIC SCALE: 1 " = 40' / 0 20 40 80 120 PROPOSED / DRIVEWAY / / E M — � M � M �- — RRTY SETBACK \ N / WITH WAIVER Cd� / SUPPLY MANIFOLD (TYP)—_ —� RETURN MANIFOLD (TYP) 3' DRIVEWAY SETBACK (TYP) 23 SURFACE IRRIGATION DRIPFIELD DISPOSAL — �f±R AREA W �y AREA WIRE FENCE I \I S PPLY MANIFOLD (TYP) ETURN MANIFOLD (TYP) I� \ Im I i I M \ coo -0 O 00 / ST \ 1-1/4" SCH. 40 PVC I / I FDT \ RETURN LINE I UV (INSIDE EZRT) PROPOSED I EZRT (2) 1-1/2" SCH. 40 DWELLING PVC SUPPLY LINES m / I / I I 4" SCH. 40 PVC FROM DWELLII0 .0 \ I 2% MIN. SLOPE 1001* 4Ak\S�egC _5'_HOUSE SETBACK \ \ \ I i \ Of SUITABLE SOILS BOUNDARY LEGEND — ADJACENT BOUNDARY BOUNDARY (PROPERTY) - - RIGHT-OF-WAY CONTOURS - INDEX CONTOURS - INTERMEDIATE x FENCE — — — — — — — EDGE OF PAVEMENT • • • • • • • • • • • 100 YEAR FLOOD PLAIN INITIAL DRIP LINES RETURN LINES SUPPLY LINES DIVERSION BERM s SOIL BOUNDARY SUITABLE SOILS BOUNDARY RETURN MANIFOLD ® SUPPLY MANIFOLD CO CLEAN OUT CP CONTROL PANEL EZRT EZ TREAT RE -CIRCULATION TANK E-Z EZ TREAT TREATMENT UNIT FDT FIELD DOSING TANK ST SEPTIC TANK M METER HU HYDRAULIC UNIT UV ULTRAVIOLET DISINFECTION ZV ZONE VALVE N A R l"l 000 1/ ESS �. 51201 4 �NGINE�¢ GRAPHIC SCALE: 1 " = 20' 0 10 20 40 60 a a_j �a W J co Wy � 0 H uJ Y Z auM}a Z (p(nW H N w W oa�o� QQQz Lu OLL Lu co Z 2 � (L U) i O M O N V N N U C00 O m 0 () Q iy O O 0 CO M ^ c D Lu 4 N T Q co N Z LLT J � Z z rn = �O - QX L u X S LQL 0= .0M a�-0z� DDaLum Z CO Q J Q < O U U CD 0W �F_ U I� .ct �O O V � c a V����� Tz B \ TREATMENT 3-BEDR00 / PRORQSED DWELLING- OSA�RE�- . S 5 I 500' DISPOSAL AREA — SETBACK LEGEND — ADJACENT BOUNDARY BOUNDARY (PROPERTY) - - RIGHT-OF-WAY 420 CONTOURS - INDEX 4+8 CONTOURS - INTERMEDIATE x FENCE — — — — — — — EDGE OF PAVEMENT • • • • • • • • • • • 100 YEAR FLOOD PLAIN INITIAL DRIP LINES RETURN LINES SUPPLY LINES DIVERSION BERM s - SOIL BOUNDARY SUITABLE SOILS BOUNDARY RETURN MANIFOLD ® SUPPLY MANIFOLD CO CLEAN OUT CP CONTROL PANEL EZRT EZ TREAT RE -CIRCULATION TANK E-Z EZ TREAT TREATMENT UNIT FDT FIELD DOSING TANK ST SEPTIC TANK M METER HU HYDRAULIC UNIT UV ULTRAVIOLET DISINFECTION ZV ZONE VALVE SOIL DESCRIPTIONS HaC Halifax sandy loam, 6to 10 percent slopes SmB Siloam loam, 2 to 8 percent slopes SmF Siloam loam, 15to45 percent slopes ••.• N C A R '_�... 000. O <SS/ �_51201 O �tiGINE�� C. GRAPHIC SCALE: 1" = 200' 0 100 200 400 600 uJ Y Z a�} Ma z >. Cn LU =o�aLL. H N R LLI o< aIx QQQzaWa � O < Ch J z LL Lu 2 LL co Z Z LU LU U U) O M O N V N N UCO L;jO 00 m 0 U Q� Cl) O O 0 L M n � � N � Q CO N Z LLT J Z z rn = _jO - QX LLI iC = LQL ZUm�rn a�Oz DOa_jm z� Q J Cl)� U U F Ow 2 I- U W � .ct �Ol o V c 4" SCH. 40 PVC FROM DWELLING I IE-Z TREAT POD FILTER I IDETAIL' r mi r 7 SEPTIC TANK E-Z TREAT I RECIRCULATION TANK DETAIL 2, L D-104 DETAIL 1, D-102 DETAIL 1, D-101 i 71 J' UV DETAIL 2, UV CAN BE PLACED INSIDE D-103 RECIRCULATION TANK RISER 1-1/4" SCH. 40 PVC RETURN FROM FIELDS TREATMENT SYSTEM DETAIL KEY MINI CLIK RAIN SENSOR CP FIELD DOSING TANK 0-1 I . L DETAIL 1, D-103 ■ FORCE MAIN GRAVITY LINE FLOW DIRECTION NOTES: 1. SEE DETAIL SHEETS FOR TANKS SIZES. _TAIL D-108 f L HYDRAULIC UNITS 1-1/4" SCH. 40 PVC RETURN LINE 1-1 /2" SCH. 40 PVC SUPPLY TO ZONE 1&2 ZONE VALVE/METER w W W — c Q N Q V W N W � 0 H ��e LUW LU w a°cn M>a Z co cn W =o�aIx H N W oacoolY Z Ewa �cn LLch wz I_ Za c� O M O N V N N ca.> 4k c o co M m mO U 0� iy O O 0 M ^ Cull w cl N T Q N Z LLT J T Z z rn = �O—aX w�XC)Q LL Z L) d ~ z 04 o0awm Q z J � Q O T L) L) o Ow V W� � vo U � N W BASE MAP INFO FROM: INC FRIS & INC ONE MAP z Z SOILS MAP PROVIDED BY: PIEDMONT ENVIRONMENTAL ASSOCIATES, PA (� 0 J a. H C coJw< = U O p p J p U az �a H w Lz W z z�cl) Lu z �HN�'w O oa(Dox U Wa z OU= O J ~ LL H � w z W 2 a ?Lu O M V O N U N ik c N O CO Lit= }m 00 U 0� m O O 0 co M ^ c D W N Q co N z J z z rn m = �O�aX W0XVQ LL z0mrn a�0z� D 0 Lu Q z J co Q o Ow TOTAL DRIP LINE LENGTH 2,870' 2 ~ V 2 DRIP LINE CHARTS C-107 NTS a V ����unu��♦♦ O ;z 1 DOSING CALCULATIONS C-107 NTS �oFEss, r yy 51201 , "p ' INE�� ��'•. �� C B N . �•�• Ill3 BASIS OF DESIGN INITIAL DESIGN FLOW FINAL DESIGN BEDROOMS GPD/BR FLOW (GPD) REDUCTION FLOW (GPD) 3 120 360 25% 270 TREATMENT TABLE E-Z TREAT PODS REQUIRED: 1 PODS E-Z TREAT RE -CIRCULATION RATIO: 9 TIMES AIDE TOTAL E-Z TREAT FLOW PER DAY: 3376.E GALLONS E-Z TREAT RE -CIRCULATION CYCLES PER DAY: 99.31 CYCLES E-Z TREAT VOLUME PER DOSE: 34 GALLONS RE -CIRCULATION TIMER ON: 2.5 MINUTES RE -CIRCULATION TIMER OFF: 12 MINUTES RE -CIRCULATION DOSE CYCLE: 14.5 MINUTES DENITRIFICATION GALLONS RETURNED: 993.1 GALLONS/DAY DENITRIFICATION RETURN SETTING: 4 GPM E-Z TREAT SURFACE AREA: 29 SQUARE FEET E-Z TREAT LOADING RATE: 12 GPD/SQUARE FOOT GEOFLOW FIELD DOISNG TABLE NUMBER OF DOSES PER DAY/ZONE: 1 DOSES/DAY TIMER ON. PUMP RUN TIME PER DOSE/ZONE: 21.18 MINS:SECONDS TIMER OFF. PUMP OFF TIME BETWEEN DOSES: 23:38 HRS:MINS PER ZONE - PUMP RUN TIME PER DAY/ZONE: 0:21 HRS:MINS ALL ZONES - NUMBER OF DOSES PER DAY / ALL ZONES: 2 DOSES/DAY ALLOW TIME FOR FIELD TO PRESSURIZE: 0:00:30 HRS/MINS/SECS FILTER FLUSH TIMER: 0:00:20 HRS/MINS/SECS DRAIN TIMER: 0:05:00 HRS/MINS/SECS FIELD FLUSH TIMER: 0:01:00 HRS/MINS/SECS FIELD FLUSH COUNTER: 14 CYCLES TIMER REQUIRED TO COMPLETE ALL FUNCTIONS PER DAY: 0:56 HRS:MINS DOSE VOLUME PER ZONE: 135 GPD EFFLUENT LIMITS PER TS-II SYSTEMS (15A NCAC 02T.0605) FIVE-DAY BIOCHEMICAL OXYGEN DEMAND (BOD_5) <30 MG/L TOTAL SUSPENDED SOLIDS (TSS): <30 MG/L AMMONIA NITROGEN (NH3-N): <15 MG/L FECAL COLIFORM: <200 /100 ML DRIP LINE SEGMENTS (ZONE 1) LINE # LENGTH LATERAL # LATERAL LENGTH 1 50' 1 — 2 90' 1 140' 3 95' 2 — 4 100' 2 195' 5 105' 3 — 6 115' 3 220' 7 120' 4 — 8 130' 4 250' 9 135' 5 — 10 150' 5 285' 11 150' 6 — 12 150' 6 300' TOTAL DRIP LINE LENGTH OF ZONE 1 1,390' DRIP LINE SEGMENTS (ZONE 2) LINE # LENGTH LATERAL # LATERAL LENGTH 13 150' 1 — 14 150' 1 300' 15 150' 2 — 16 150' 2 300' 17 150' 3 — 18 150' 3 300' 19 140' 4 — 20 140' 4 280' 21 85' 5 — 22 85' 5 — 23 70' 5 — 24 60' 5 300' TOTAL DRIP LINE LENGTH OF ZONE 2 1,480' -- W \ E-Z TREAT TREATMENT SYSTEM I FIELD DOSING - TANK 1 i 1 SUPPLY LINES PLAN 1 "-40' 460 455 450 445 m co 0 440 0 435 430 425 SUPPLY AND 1 \\ RETURN LINES IN SAME TRENCH \ \ \ \ \ SUPPLY MANIFOLD AT \ \ HIGHEST POINT OF FIELD 11,41 GRAPHIC SCALE: 1 " = 40' 0 20 40 80 120 -0+50 DOSING 0+00 0+50 1+00 1+50 TANK Station SUPPLY LINES PROFILE HORIZONTAL: 1"=40' ; VERTICAL 1"=10' SUPPLY MANIFOLD AT iEST IRRIGATION POINT H LuW 2� Lu W Q � } Q Z M }cDU W H N W zQ(Dow J�0Lu L) ~ U J LL H J Z w 2 Z d U) O M O N V N N U z*ImC O 00 M m mO U iy o 0 0 M n W) W N Q cl) NLLF Z J � Z z rn = -O-aX W X U Q LL zUm�rn a�Oz� DOaLu Q z J Q O U U CD Ow V W � C� O " o•��N CA 0 OFESS� �- 51201 INIt 1111111% E�� •: 04- GATE (FIELDZ DJUST TTRSPIN 4 GPM FOR E FILTER RETURN FLOW) r 3/i" SCH] 40 PVC CLEAN OUT SEPTIC FLOW FROM HOUSE —� - - - i / ^ 1,000 \ SEPTICLLON N \ BY DAV DA BRANTLEY & SOS 4" SCH. 40 PVC D- O O , ST-502 OR APPROVED EQUAL I _ EFFLUENT FILTER ±10' OF SCH. 40 PVC24"0 LTER SERTER VICE E-Z SET RISER W/COVER HANDLE EDRIVEWAYRWISE IFF BELOW OR PARKING) LOT THEN USE ONLY H-20 TRAFFIC RATED DEVICES il" L— — — — — — — — — — — — — — — — — — — — — — — — — — J 4" X 1 " REDUCER SCH 40 108" PVC RETURN FROM FIELD INV. IN PVC RETURN FROM FIELD cZ o SEPTIC TANK NTS 24"0 E-Z SET RISER W/COVER (TYP. UNLESS OTHERWISE NOTED) NOTE: FIELD VERIFY PRIOR TO ORDERING RISERS LINE SEE D-102 FOR CONTINUATION) 2" SCH. 40 PVC VENT tz D_ (SEE D-101 NOTE 17) x FINISHED GRADE ,3/4" PVC \ L � N iv a \ \ / \ EGA \ OD ♦e a __ 2" VENT 0 I (SEE SHEET :-I 0D WATER LINE C-102) I OD _ 0 I oa i! (D o 0 p " I ro N) N J co Lo 3" MIN. �_ ±12" TANK FLOOR MIN. SEPTIC TANK SECTION NTS 1/3 TANK LENGTH PRECAST CONCRETE NOTE, PIPING TO BE 4" SCH. 40 PVC 2 GRAVITY CLEANOUT D-101 NTS WATER TIGHT SEAL ON RISER ASSEMBLY 3/4" SCH. 40 PVC RECIRCULATION `C LINE FROM E-Z TREAT TEE \4 SCH. 40 PVC _ (SEE D-102 FOR =_ CONTINUATION) INV. OUT 1 "-2" BELOW INVERT IN CAST -A -SEAL 402 RUBBER BOOT (TYP.) SIMTECH STF 110 SERIES, POLYLOCK PL-68 OR ENGINEERS APPROVED EQUAL 3" MIN. NOTES 1. ALL PIPING SHALL BE SCH 40 PVC UNLESS OTHERWISE J p NOTED ON PLANS. ALL PVC PIPES SHALL BE BURIED A Q LL MINIMUM OF 3 FEET UNLESS SHOWN OTHERWISE. W o p 2. ALL TANKS SHALL HAVE A MINIMUM 28-DAY CONCRETE p STRENGTH OF 4500 PSI. 3. TANKS SHALL MEET REINFORCING REQUIREMENTS TO ACCOMMODATE 300 POUNDS PER SQUARE FOOT. EITHER STEEL REINFORCING WIRE, REBAR OR APPROVED FIBER MAY BE USED. 4. ALL SERVICE ACCESS OPENINGS WILL BE A MINIMUM OF 24 W Y Z INCHES. EXCEPTIONS MAY BE MADE ON A CASE BY CASE 2 a W W U BASIS WITH E-Z TREAT'S PRIOR WRITTEN APPROVAL. ALL LU J z ACCESS OPENINGS SHALL BE FITTED WITH E-Z SET RISER O 0 a aREC} ASSEMBLIES. SERVICE ACCESS OPENINGS FOR THE U M } BE A ANDFITTEDON WITHANCYLINDER CHORIS RISER ASSEMBLY. < = .6 d TRAFFIC RATED TANKS SHALL HAVE CONCRETE RISERS. H N a' W O O<copw U 5. ALL JOINTS (TOP -SEAM) SHALL BE SEALED USING CONCRETE SEALANTS BUTYL SEALANT CS-102 MEETING z Q W d Z J O U = # ASTM C-990. J 0 J Z L w 6. TANKS SHALL BE LEAK -TESTED PRIOR TO SYSTEM START Lu — 2 LU d UP BY APPLYING A VACUUM OF 4-INCHES OF MERCURY ? d WITH RISER ASSEMBLIES IN PLACE OR WITH APPROVAL BY E-Z TREAT, A 24-HOUR STATIC WATER TEST, IN ACCORDANCE WITH ASTM STANDARDS. 7. NON -CONCRETE TANKS SHALL NOT BE USED IN CONJUNCTION WITH THE E-Z TREAT SYSTEM WITHOUT PRIOR p M WRITTEN APPROVAL BY E-Z TREAT. V O 04 C 8. ALL PIPE PENETRATIONS THROUGH PRECAST CONCRETE U N cD N p TANKS SHALL BE PRESS -SEAL CAST -A -SEAL 402 RUBBER co W M BOOTS AND GROUTED. m m O 0 C.) 0 9. THE FILTER POD INVERT OUT SHALL BE A MINIMUM OF 6" ABOVE THE INVERT IN OF THE RECIRCULATION TANK OR 1/4-INCH PER FOOT SLOPE, WHICHEVER IS GREATER. c m o 10. CONTRACTOR MAY USE LARGER TANKS. W N 11. MAXIMUM COVER OVER NON H-20 TANKS SHALL BE 30" co N Z OR AS SPECIFIED BY MANUFACTURER. 12. SYSTEM INFLUENT SAMPLE SHOULD BE TAKEN FROM INLET W Q 0 z Z rn m — TEE IN SEPTIC TANK RISER J JO 04 Q L)Q W X LL 13. SEE C-101 FOR GENERAL NOTES. L)m~ 14. LENGTH, WIDTH, AND DEPTH OF TANKS WILL VARY PER 0 H 0 z N MANUFACTURER. LU Ex a 15. MAY USE COMBINATION SEPTIC TANKS AND RECIRCULATION Q Z TANKS RATHER THAN SEPARATE IF NECESSARY OR DESIRED J BY OWNER. Q 16. IN AREAS WITH LOW ALKALINITY WATER, INSTALL ±55 LBS. L) L) J OF MARBLE ROCK (1"-3" DIAMETER) IN 24"x24" MESH o O W BAGS. USE 1 BAG PER E-Z TREAT POD. PLACE MARBLE H ABOVE "BEAD" PILLOWS. 17. ALL VENTS FOR TANK RISERS SHALL BE 2" SCH. 40 PVC AND HAVE POLYLOK CARBON FILTERS OR ENGINEERED APPROVED EQUAL. _ n^ 18. ALL TANKS EXCAVATED INTO BEDROCK SHALL HAVE BEDROCK LINED WITH 10MM SYNTHETIC LINER. LINER SHALL BE INSTALLED WITH NO MORE THAN A 2 FOOT GAP FROM Oj] THE TANK. SEE DETAIL 4/D-105. u4j• N CARo�'.. V O o 51201 IN���N�C• �'• ��� G� C . B P� '••••.,Billsl a�zaZ3 (SEE D-105 FOR TO E-Z 1-1/2" SCH. 40 PVC CONTINUATION) TREAT POD FROM E-Z — — — — TREAT POD EFFLUENT BYPASS VALVE W/FLOW 30"0 E-Z SET RISER RESTRICTOR TO 10 GPM W/COVER (TYP) f 3/4" SCH. 40 PVC RECIRC LINE TO SEPTIC I a CLEAN , _ _ 12" MIN. LENGTH OUT i� FLEX PVC \ AIR VACUUM RELEASE VALVE \ (SEE D-101 FOR =O 1,000 GALLON RECIRCULATION PUMP TANK L Loy CONTINUATION) _ I BY DAVID BRANTLEY & SONS PT-237 OR APPROVED EQUAL + FLOW co i 4" X 2" REDUCER -H TURBINE PUMP UV UNIT I I 1-1/2" X 3/4" TEE W 4" X 2" REDUCER TO FIELD DOSING ±95" CHAMBER r RECIRCULATION TANK ALARM LIGHT L 1 'A D-102 NTS 30"0 E-Z SET RISER Z W/COVER (TYP) AIR VACUUM CONTROL PANEL (LOCATED PRECAST CONCRETE "DONUT" 3/4" GATE VALVE RELEASE VALVE WITHIN 10-FEET OF TANKS) (OPTIONAL) MID.) 3/4" SCH. 40 PVC RECIRC. LINE 3/4" UNION DIRECT BURY CABLE TO PANEL SCH. 40 PVC FULL UNION (TYP.) FLOAT TREE � r-r- BRACKET CAST -A -SEAL 402 RUBBER BOOT (TYP.) 4" SCH. 40 PVC DROP TEE (TYP.) o �n N 3 -H � a ALL TANKS REQUIRE A 6" THICK #57 STONE BEDDING (TYP.) RECIRCULATION TANK SECTION NTS 0 HIGH WATER ALARN 40" ABOVE FLOOR ro DOSE ENABLE_- _ 22" ABOVE FLOOR I 1-1/2" SCH. 40 PVC FLOAT TREE STA-RITE MULTI -STAGE SUBMERSBLE PUMP PART NUMBER STEP 30 1/2 HP OR EQUAL PER E-Z TREAT 1-1/2" SCH. 40 PVC (SEE D-105 FOR 1 LINE TO FILTER POD CONTINUATION) NOTE: UV UNIT NOT SHOWN FOR CLARITY. SEE DETAIL 2, D-104 I I EFFLUENT BYPASS VALVE BY E-Z TREAT SEEVALIE SECTION BYPASS VALVE SECTION A, D-104 3/16" ANTI -SIPHON \ HOLE (TYP) MERCURY FLOAT 3" SWITCHES (3) C A,R 0�' �Nn `1 51201 3" PVC STAND tiGINE�C li G . /o c. aP� •���3 coLL N wO 0 N H W Y Z <L)c)}Q Z}(pU) W = co H N X W oa�o� QQQZ a W d O LL ch H Lu Z Lu 2 co Z Z LU d 07 07 O M O N V N N ca.) 4k c o 00 Lr l t= m 00 U 0� iy O O O12 Lu M n W � N T Q � N Z J T Z z rn = �O - aX W X U Q LL ZU Co , a~OzC,4 0 O d LL Z Q J Q � T U U o OW 2H W� ct • r� O 0 c� 100% BACKUP PRIMARY LAMP LAMP i A 4" 2" TURBINE PUMP L4" D-103 x 2" 17" REDUCER 3,500 GALLON PUMP TANK 00 + BY DAVID BRANTLEY & SONS PT 484 OR APPROVED EQUAL TO HYDRAULIC \ - - UNIT TOP VIEW I FLOAT TREE I (TYP.) 2"x2"x1/2" — REDUCING TEE 158" 4" 2" FIELD DOSING TANK PLAN 1 4" x 2" -103 NTS REDUCER M 2" SCH. 40 PVC VENT 1-1/2" SCH. 40 AIR VACUUM 1-1/2" PVC (SEE D-101 NOTE 17) PVC FULL UNION RELEASE VALVE CHECK VALVE z PRIMARY DIRECT BURY LAMP CABLE TO io PANEL FINISHED GRADE Z \� NON -CORROSIVE AND PROTECTIVE REFLECTIVE SLEEVE F- FLOAT TREE BRACKET ( a 3/16"ANTI-SIPHON SEE D-102 FOR CONTINUATION) :I - HOLE (TYP.)� SECONDARY TIMER ±XX" ABOVE FLOOR M HIGH WATER ALARM ±XX" ABOVE FLOOR io n � DOSE ENABLE ±XX" ABOVE FLOOR 3" - - MIN. PUMP OFF ±18" ABOVE FLOOR MERCURY FLOAT -H SWITCHES (4) ro 1-1/2" SCH. 40� ±12" PVC FLOAT TREE MIN. --------- ---- e y a --------------------- STA-RITE HIGH HEAD MULTI -STAGE SUBMERSIBLE EFFLUENT PUMP CATALOG NUMBER STEP 20, 1/2 HP A FIELD DOSING TANK SECTION NTS 1-1/2" SCH. 40 PVC TO HYDRAULIC UNIT (SEE D-108 FOR CONTINUATION) SECTION VIEW 4" WELL CAP DISCONNECT UNION (TYP.) " \-4" x 2" REDUCER 1/2" BALL VALVE CONTROL WITH ALARM 2" 4- -1 /2- BALL 4" x 2" VALVE REDUCER `DISCONNECT UNION (TYP.) NOTES: —100% BACKUP 1. ULTRAVIOLET LIGHT PURIFIER UV-102 LAMP BY E-Z TREAT. 2. PROVIDE DUAL GFI RECEPTACLE FOR UNIT AND HEAT TAPE. FIELD ROUTE 2-#12,1-#12G, IN 3/4" PVC CONDUIT TO 120 VOLT SINGLE PHASE 20 AMP BREAKER AT HOUSE. 3. ORIENTATION PER SITE REQUIREMENTS. 4. INSTALL 1/2" BALL VALVE FOR SAMPLING DOWNSTREAM OF U.V. UNIT. 5. MAY LOCATE IN RECIRCULATION TANK IF ACCESS PROVIDED. ULTRAVIOLET DISINFECTION UNIT coLL M J � O 0 Lu M H uJ Y Z aL)c)>Q Z}(pU) W H N X W oa�o� QQQz a � Lu O LL H J Z w Lu 2 zLu d 07 O M O N V N N U ik co O co 00 Li l t= m 00 L) 0 Iy O O 0 Lu LuM� N � Q (1) NLLT Z J � Z z rn = L) LuX U Q LL ZUm�rn a~OzC4 Lu IX 0 LLT Q z J Q cj) rn U UFX CD OW 2H t, .ct 0 0 V ct �y 1 - 1 /2"x 1 - 1 /2"x3/4" EFFLUENT BYPASS PVC REDUCING VALVE BY E-Z TREAT FINISHED GRADE TEE J30" C \ \� \ 3/4" SCH. 40 0 RISER COVER SE SEE GEN.NOTES LL 0 0 \ PVC RECIRC LINE Lu ! 4" 90BEND FIN. GRADE a'1 h Z W H 4" FROM FILTER POD 4" SCH. 40 PVC FLOW CONTROL 1-1/2" ELBOW (TYP.) CROSS (TYP.) WEIR 4" TO ULTRAVIOLET '\ T ] \ W `e Z 2 W WATER LEVEL PLATE DISINFECTION UNIT (IF APPLICABLE) OR \ 1-1/2" SCH. 40 \"\LU PVC FULL UNION Q W U H Z 4" SCH. 40 PVC (FIELD ADJUST TO SHUT OFF RETURN FLOW TO FIELD DOSING TANK a *.'. °' .:..• (TYP.) 0 0 Q } a FLOAT BALL RECIRCULATION TANK AT 1-1/2"" PVC CHECK M Z �p W 2 6" BELOW SECONDARY VALVE a < TIMER ELEVATION) GATE VALVE N X W O �<coaw •;' 3/4" FROM 1-1/2" SCH. 40 PVC LINE TO U Z Q W a Z J O U = UNION PUMP FILTER POD (TREATMENT POD) O fn TANK BALLAST 3/4" 90° ELBOW LLfn 0_' W (IF APPLICABLE) mz �!= a RECIRCULATION TEE SECTION a `n I z �'. � n 2E �'. B D-104 NTS cn o M 04 2 CO MIN. DRIP FIELD RETURN LINE (SEE U Q 04 c cN ALL TANKS REQUIRE A 6" 1. SEE SITE PLAN FOR SITE PLAN FOR PIPE SIZE) U co O THICK STONE BASE (TYP.) ORIENTATION. co LEI M EFFLUENT BYPASS VALVE SECTION m " A Rom. CD o D-104 NTS �'s'p ALp 2" x 1-1/4" REDUCER CD S pGS� 4" x 2" Lu w CLEAN REDUCER n Q M Z^ FROM SUPPLY MAIN TO RETURN MAIN RETURN OUT cow Lu Q 0 ZONE z Z SUPPLY HEADER ZONE O 4" PVC a J N a iC U HEADER W X Q LL TO SEPTIC H Q 0 TANK Z L) Co TO ALTERNATE PVC END CAP 4" PVC 4" PVC 0= M a 0 Z 04 LATERALS 1/2" RETURN LINE TO WY TEE a LLf n SEE SCHEDULE c� ZONE RETURN HEADER Q z _j v a FIELD RETURN LINE DETAIL M N FEED 2 D-104 NTS << 2 J ......... r• MANIFOLD DRIPPER LOOPING OF NON DRIP BLANK TUBING LINE CONNECTION 1/2" PE TUBING WITH ° ......................................................... 0.53 GPH EMITTERS 1/2" BLANK (NON DRIP) LINE 2.0' O.C. NOTES: (66" MIN. TOTAL LENGTH) 1, TYPICAL ALL DISTRIBUTION FIELDS LOOPED LATERALS ® 3' O.C. (MIN. 9"). 1/2" DRIP LINE 6" RAD. MIN. (TYP) rl) 2. SUPPLY AND RETURN LINES TO BE PLACED IN THE rT� -H SAME TRENCH. ^ Q� 3. SEE SITE PLAN FOR LATERAL LENGTHS, LINE (� LTC 600 DRIP TO DRIP 1.5 _ LAYOUT, AND NUMBER OF LATERALS. V •., LOCKSLIP COUPLING �' 4. INSTALL MANIFOLDS ON OPPOSITE SIDES OF DRIP " ,�� C A,R �. O O ••..•, TYP. LOOP CONNECTION ....... ..... FIELD FOR LATERALS WITH AN ODD NUMBER OF LINES. LAYOUT ABOVE IS TYPICAL OF DESIGNS WITH AN EVEN NUMBER OF LINES PER LATERAL. ��,� O` ��,, : _ FESS/ 5. PROVIDE PRESSURE REGULATOR IF REQUIRED TO QT MAINTAIN PRESSURE BELOW 40 PSI. 51201 DISTRIBUTION FIELD PLAN TYPICAL =� 1 D-104 NTS .4,9 �tiGINE�� Q���•' C B N o. . II/3Dl -y1 7'-3-1/2" (TYP.) o � To SPRAY NOZZLE a (TYP.) PRESSURE GAUGE 4" SCH. 40 PVC 90- ELBOW (TYP.) f 1-1/2 2" X 6" BOARD WITH ALUMINUM BRACKETS ATTACHED TO POD WITH S.S. SCREWS TO ASSIST WITH SOIL STABILIZATION (TYP. OF 4) DS OF WIRE 4" CPP (SEE SITE PLAN FOR OUTLET) 3/4" CAP o ro (TYP.) o SALT TREATED 4"x4" o if OR METAL POST MINI -CLICK RAIN SENSOR 1-1/2" BALL VALVE TO OUTLET ® I6 e LtAU WIKtb o CONTROLLER o A 1. POSTS TO BE PLACED ±20' O.C. Nm o D-105 1. DO NOT COVER. 2. RAIN SENSOR SHALL BE o MODEL MINI-CIK BY HUNTER 2 TWO STRAND WIRE FENCE s RAIN SENSOR o D-105 NTS D-105 NTS NOTES: 4"I 1. PROVIDE UNDERDRAIN ON SITES WHERE SEASONAL HIGH GROUNDWATER IS WITHIN 6" OR ABOVE THE BOTTOM OF THE TANKS. E-Z TREAT TREATMENT UNIT PLAN NTS TOP OF POD 1-1 /2"0 SUPPLY Ld I LINE 0_ 12" 4"0 RETI AIN. LINE 4" CPP PERFORATED 6" THICK #57 TUBING (SLOTTED) STONE BEDDING AROUND POD (TYP.) (TYP.) SEE SHEET C-102 FOR INVERT OUT E-Z TREAT TREATMENT UNIT SECTION NTS _ 3' ALL AROUND SELECT BACKFILL FREE OF DEBRIS FINISHED ra\ EXCAVATION INTO BEDROCK NTS REQUIRE BEDDING \A C A►R O ,.o� 51201 C B PAC, ,�►•►►nnn� �a ZaZ3 co LL Lu o� H W Y Z aucn m>-Q Z}cocn W H N W oacoaIx QQQZ a t— W O_ O < ch H J Z Ix Lu 2 Z LU d c cn O M O N V N N U ik c O 00 Li l t= m m0 U 0 iy O O 0 co L M n W � N � Q co NLa Z J � Z z rn = �O - QX W X U Q LL ZUm�rn a��z04 WWQZ t^D Q J Q rn U U o Ow H W� ct 0 0 U v c TWO (2) #4 REBAR Z M NOTES, 1. PROVIDE TANK BALLAST ON SITES WHERE SEASONAL HIGH GROUNDWATER IS WITHIN 6" OR ABOVE THE BOTTOM OF THE TANKS. 2. CABLES SHALL BE 3/16" STAINLESS STEEL, LENGTH VARIES PER TANK. 3. CONNECT CABLE TO REBAR EMBEDDED IN BALLAST WITH TWO (2) STAINLESS STEEL CLAMPS PER CONNECTION. 4. TIGHTEN MINIMUM 2 CABLES PER TANK. 5. EACH CABLE SHALL BE A MINIMUM OF 2' FROM END OF TANK. 6. REBAR SHALL BE NO. 4. 7. BALLAST MAY BE PRECAST OR POURED IN PLACE USING PLYWOOD FORMS. 8. TOTAL SEPTIC TANK BALLAST SHALL BE A MINIMUM OF TWO (2) CUBIC YARDS. 9. TOTAL RECIRCULATION/FIELD DOSING TANK BALLAST SHALL BE A MINIMUM OF TWO (2) CUBIC YARDS. 10. CONCRETE SHALL BE A MINIMUM OF 3,000 PSI. 11. CONTRACTOR MAY USE CONCRETE WHEEL STOPS WITH MINIMUM CONCRETE MASS PROVIDED WITH APPROVAL OF ENGINEER. 12. SEE BUOYANCY CALCULATIONS IN APPLICATION PACKAGE FOR BALLAST DIMENSIONS. NOTE NOTE 5 TANK BALLAST DETAIL (IF NEEDED' NTS MANIFOLD TRENCH 12" WIDTH MIN. 2" 4" OF PINESTRAW OR MULCH (OPTIONAL) J"x4" PVC REDUCING EMITTER TUBING ELBOW (TYP. OF 2) --\ 8" TUBING STAPLES 4" - 6" TYPICAL ® 25' O.C. WELL PACKED i DAM HEIGHT EARTHEN DAM 1 z 12" BEYOND a LTC 600 DRIP TO DRIP MANIFOLD TRENCH TO DRIPPER LINE LOCKSLIP COUPLING CONNECTION 12" PVC RETURN J 2 �1/2" PVC \-1/2" PE BLANK TUBING (TYP.) SUPPLY SUPPLY / RETURN SECTION D-106 NTS NOTE, z 1. SUPPLY OR RETURN MANIFOLD PIPE \\� SIZES MAY VARY (SEE DISTRIBUTION FIELD DETAIL THIS SHEET). a z \ 1/2" PE CONNECTION TO 1/2" / BLANK TUBING PE DRIPPER LINE LTC 600 DRIP TO DRIP LOCKSLIP COUPLING MANIFOLD TRENCH LTC 600 DRIP 3/4" PVC SLIP TO BLANK TUBING MANIFOLD DRIPPERLINE CONNECTION -106 / NTS H W Y Z V} ai,�Q Z}�pU) W H N X W oa�o� QQQZ a W d OLL ORIGINAL J Z_ w ~ GRADE m Z �_ z Lu d 07 07 O M O N V N N U �k c o m co m mO U 0� iy O O 0 co � W M Q N Z Q J Z z rn = _jO -QX U W X Q LL ZUm�rn a�-Oz� IX DOaLm Z Q J Q rn U U CD OW W� ot (N C A /� p �'•. O �. 51201 �•. O INE�¢ .: ••'•..Big 11%a�za ROUND VALVE BOX AIR/VACUUM BREAKER (AVBK-1) 1" SCH. BO PVC NIPPLE LENGTH AS REQUIRED - PEA GRAVEL SUMP --I 1-1/2" SUPPLY LINE 1-1/2" SCH. 40 PVC MANIFOLD 1-1/2" ELBOW 1-1/2" x 1/2" REDUCER BUSHING 1/2" SCH. 40 PVC RETURN LATERAL - NQTE- 1. NUMBER OF LATERALS TO MATCH SITE CONDITION. CAP FITTINGS NOT NEEDED. J ti O 2. ALL PIPE SHALL BE SCH. 40 PVC UNLESS a LL OTHERWISE INDICATED. W O 0 ~ 3. SEE SITE PLAN FOR NUMBER OF 0 LATERALS. 4. SEE SITE PLAN FOR SUPPLY LINE, RETURN LINE, AND MANIFOLD SIZES. 5. AIR VACUUM BREAKER VALVES SHALL BE INSTALLED ON EACH SUPPLY AND RETURN MANIFOLD AT THE HIGH POINT. FINISH GRADE ECHRADER VALVE THREAD DIAMETER PVC UTILITY BALLALVE W/ THREADEDNDS (NORMALLY OPEN).BRICKSUPPORTS(THREE)40 PVC MANIFOLD 1-1/2" x 1/2" REDUCER/BUSHING 1/2" SCH. 40 PVC SUPPLY LATERAL �� SUPPLY FINISH GRADE \�77 ROUND VALVE BOX �_ [ AIR/VACUUM BREAKER (AVBK-1) 1" SCH. BO PVC NIPPLE LENGTH AS REQUIRED - 1-1/2- TEE (TYP) RETURN SUPPLY / RETURN ZONE HEADER 1-1 /2" TEE (TYP) SCHRADER VALVE 1" THREAD DIAMETER 1" PVC UTILITY BALL VALVE W/ THREADED ENDS (NORMALLY OPEN). BRICK SUPPORTS (THREE) PEA GRAVEL SUMP 1-1/4" BRONZE CHECK VALVE 1-1/2" x 1-1/4" REDUCER/BUSHING 1-1/2" x 1" REDUCING TEE (SOC X FIPT) H W Y Z aL)m>-Q Z}�pU) W I- NXW oa�o� QQQz a W d O LL ch H J Z w Lu 2 Z LU d 07 07 V U }m O O N ik coco 00 00 U M N N O la l t= 0� iy O O O Lu W M Q cl) N Z J � Z z rn = < -J 04 U W X Q LL ZUm�rn a�-Oz� Z WQ W co J � Q rn Q U U o Ow W � U C A�R•''•, O O o ESS �O U ct r� �51201 �'. O �tiGINE�� ".`� PVC MAINLINE PVC COUPLING OR REDUCER (TYP.) — FROM FIELD DOSING TANK FILTER FLUSH VALVE IPS FLEX PVC — FILTER AND FIELD FLUSH LINE RETURN TO SEPTIC TANK FIELD FLUSH VALVE 30" RISER 30" RISER FINISHED GRADE PVC COUPLING OR -'?'� REDUCER (TYP.) — VORTEX FILTER FILTER FLUSH VALVE SCH. 80 UNION — IPS FLEX PVC — RETURN TO SEPTIC TANK PVC COUPLING OR REDUCER (TYP.) — FILTER AND FIELD FLUSH LINE - WASHED #57 STONE NOTESe 1. PROVIDE DUAL GFCI RECEPTACLE FOR HEAT TRACING IN EACH RISER. 2. PROVIDE 1 BATT OF FIBERGLASS INSULATION IN EACH RISER. 3. SEE SITE PLAN AND CALCULATIONS FOR SUPPLY AND RETURN PIPE SIZES AND NUMBER OF PIPES (ZONES). 4. SEE PLAN VIEW FOR ORIENTATION. b b G REDUCER AS REQUIRED TOP VIEW HYDRAULIC UNIT NTS PVC MAINLINE VORTEX FILTER SCH. 80 UNION (TYP.) b b 30" RISER IPS FLEX PVC a RETURN FLOW FROM DRIP FIELDS PRESSURE GAUGE AIR VENT FIELD SUPPLY LINE (TYP b PVC LINE TO SOLENOIDS IPS FLEX PVC F PRESSURE GAUGE RETURN FLOW FROM DRIP FIELDS PVC COUPLING OR REDUCER AS REQUIRED AIR VENT FIELD FLUSH VALVE z ro m HEAT STRIP rA b m II GFCI RECEPTACLE I (TYP.) FLOW METER ZONE 1 VALVE ZONE 2 VALVE TO DRIP ZONE(S) PVC OR COUPLING REDUCER (TYP.) GRADE ZONE 2 VALVE ZONE 1 VALVE 30" RISER -WASHED #57 STONE 2E NLL O J � O H Q 0 O 0 H W Y Z aL)c)>Q Z}�pU) W H N W oa�o� QQQZWa O LL H J Z w Lu co z Lu d 07 07 V O O M N U N ik co co N O 00 m0 LiJ t= }m U 0� iy O O O LuM n W 4 N � Q co N Z J � LLT Zza��a% _jO —aX W�XVQ ZU�LL m�rn a�-Oz� DOaWm Q z J Q rn U U CD OW H W� st � N 0'... vs 0.00"", • �. 51201 ••. O " INE••, ���" #B ill rr 7 �i 0 0 0 N 00 0 N a1 U N 0 N 0 J Y J O 2 O N 00 0 U U T 2 ca _ D- c E N m J C 0 0 00 0 00 0 U M N 0 N i U 2 y- JLIL O �o W O Q 0 1 2 3 4 5 6 7 8 9 Branch Circuit Protection Device/Disconnect Means Field Provided - 2 X Pump Load Led Field Wiring Legend Size per manufacturing specifications for Pump/Motor 120/230 VAC 0-16A MAX 60 Hz Field Supplied Alarm/Control Source Pump Source Pump Source Pump must contain integeral Device Tag I Description IT7111r., � 120 VAC, 60Hz 120/230 VAC, 60Hz 120/230 VAC, 60Hz thermal overload protection. BALLAST Ballast W W Z CB1;CB Circuit Breaker 2 Pole 20 A 45 In -lb Bottom Feed Bottom Feed Bottom Feed Ground Motor PE to Ground Lug Y W J CB3 Circuit Breaker 1 Pole 10 A 45 In -lb Circuit Breaker Circuit Breaker Circuit Breaker CS1 Current Switch NO0.5-100A 2 Z (7 O L1 N L1 L2/N L1 L2/N F1... F3,F8 Fuse Terminal Block F1...F3;F8 5 A Control Fuse Z () M } W a } Z 37 PUMP1,PUMP Customer Supplied AC Pump 1.4 1.5 M1 W 12 PWS Power Supply 24VDC 30 N1 N2 CB1 5L3 6T3 2 T2 SW2 oggle Switch 2 H N W O Q Q cocD Q ( Z Q W d Z TB6 2 31 TB1;TB6 Terminal Block 30A Q a 2 T BLK 4�3 3L2 4T2 TB2 Double -Level Terminal Block 20A J fn LL X z 2 e PUMP1 TB3;TB4 Terminal Block 20A W = W ~ z U a \ BLK 1 ti TB5 Terminal Block 20A CB3 )� TB4 1 2 2��1 12 1 L1 2T1 T1 PE TB5 erminal Block 20A z W d / 1 TRANS1 Transformer, 24VLK N f38 N3N4 N5N6 CB2 5L3 6T3 2 T2 RED 1.2 2.2 33 V O N 2 BLK 4�3 1z 3L2 4T2 U� N O BLK PUMP2 00 W M 6 34 m o � TB 1 2 2��1 BLK1 1L1 2T1 T1 PE m 0 U p FB 1.1 /2.3 1.1 1 2 N1 N2 i) o CD ^ w) RED 6 co W � N a co N Z 24 BLK J T LLQ 18 ZZQ)D!.�... 15 T RED RED RED J N Q X L)16 f'RN 18 18 8 18 LBlack W X Q LL PE NOTES• PWS 3 Z- L) 1 1 ND1 - 1. SEE SHEET C-101 & D-101 FOR ALL p 2 -OM d O L PE N 40 F1 F2 GENERAL NOTES. Z 0 ,o Orange ,e T Power Supply 2. PROVIDE JUMPER WIRE OR EQUAL W (L LU n Q Z J co co 2 2 PS5R-VC24 4 6 F1 - F3, F8 Fuse must be replaced with 5 Ampere �24 METHOD TO DISABLE RAIN SENSOR TERMINALS ON SUBSURFACE L) rn C0 a. RED RED BALLAST1 Black White Yellow RED VDC 30W TRANS1 18 18 type 5mm x 20 mm fast acting 250 V max INSTALLATION. Cl) Q Q ?� L) L) v, v- Spare fuses provided in packet 3. PANEL SHALL HAVE PROVISIONS FOR J o O W TB1 1 2 Blue Yellow SECONDARY TIMER/HIGH WATER ALARM, � � H 20 21 22 25 26 24 VAC ovAC DOSE (TIMER) ENABLE, AND LOW 120VAC.1 BLK18 e B T YEL REED REED 39 41 WATER ALARM (REDUNDANT OFF). Qj BLU YEL HTR1 1e 18 4. PANEL BY ALDERON, OR EQUAL. TB5 1 2 3 ze zs 3s s x1 x2 4 BLU BLU T/BLu T/BLU 1 23 8 18 8 5. PANEL TO BE SUPPLIED BY E-Z n , 19 27 18 1 2.5 RED T ORG CAUTION: Nonmetallic enclosures does not provide TREAT. BEL B F3 R 2.4 grounding between conduit connections. Use grounding B CS1 OVDC.1 o bushings and jumper wires. I-�I 4 UV Lamp24VDC.1 BB D Red Blue BLu SW2N3 2.6 2.1 RBED ATTENTION: Les boitiers non-metalliques ne permettent ct 24 VDC.2 IlIl, pas de mise a la terre entre les connexions de conduits. COM (NO> T132 27 zs 3.4 OVDC.2 Utilisez des manchons de raise a la terre et des fits de liaison. N C A RO 0 UV Lamp 3.4 24VAC OVAC ����`� � ' ' <� CA -=INTRODUCTION/2 Schematic 2.4 2.7 2-> :���Q' l V1 '0J&ALDERON" Industries This drawing contains proprietary information which must not be duplicated, used, or disclosed I Model DWG Numbe EZT-1 CD4Z-230-16 Quote Number Drawn By B. Nelson Page Number OF�Ssy Leading Edge Control Products Checked B B. Klabunde in whole or in part without prior written consent. 1 OF3 51201 / QJ� no 15TH Si. SOUTH HAWLEY AN 565a9 Notes: 1. WARNING! Electrical Shock Hazard! Disconnect power before servicing this product. A qualified service person must install and service this product according to applicable electrical and plumbing codes 2. Install in accordance with National Electric Code, NFPA 70, Seal all boxes, fittings, and conduit with appropriate seal devices to prevent moisture and gasses from entering enclosure. Date 1 /19/2021 3. Connect all grounds to a good ground. 4. Dashed lines represent field wiring - Use minimum 60 deg C Copper Wire 5. Branch Circuit Protection Device/Disconnect Means Field Provided. tiGINE� �. P�, 1 E-Z TREAT COMBO DRIP CONTROL PANEL 1 OF 3 •.,C.13N", D-109 NTS 3 U) V J O ILL 0 0 W p 0 1 2 3 4 5 6 7 8 9 High Level Field Wiring Recirculation Drip Floats Legend F37 Field Supplied High Level Secondary Timer Dose Enable FS3 Dose Enable FS6 Device Tag I Description Redundent Off FS2 Redundent Off FS5 B1 3uzzer 120V —r Z W CR1 Relay, 120VAC, SPDT 7.1 In -lb FS1 FS4 LIJ Y Z F4... F7 Fuse Terminal Block 2 Q W W ( ) F4... F7 A Control Fuse W J H Z LT1 Red Beacon 15W Q L) M } Q } M11M2 ontactor 18 A- 120V Coil 151n-lb 1 In -lb Z } (D V) Lu ~ Z PLC1 PLC, 14I/100 _ c d � H N w O TB2 2 4 6 8 10 12 14 SW1 oggle Switch SPDT a CD X a, U 24VDC.1 TB2 Double -Level Terminal Block 20A 3 5 7 9 11 13 Z Q W d Z J O () = TB2 1 �B'W:: 45 1 F4-F7 Fuse must be replaced with 5 Ampere Q J < u) in B�u 18u type 5mm x 20 mm fast acting 250 V max w ? ~ w e Spare fuses provided in packet m Zw Cn ~ a a � Cn 44 7 54 59 60 63 65 67 70 r R / 1.0 BLU BLU BLU BLU BLU BLU BLU BLU BLU 8 18 18 8 18 8 18 8 18 68 BLu 8 PLC1 p N ICOM 10 11 I 12 13 14 115 16 17 10 ill 112 1113 114 115 a s b b < � p BB u BB u 00 W M 24VDC IN m O V o MICROSmart CDM Analog IN SW1 iy m o FC6A—C24 R 1 C E (N0)1 Ott s NO) 2 n I ?^ M Serial a C0 N Z use R .OUT R .OUT R . Oy UT J z �% -1Q—VX SERIAL Ethernet TOVD 24VDC TPE COMO 00 T01 T02 T03 COM1 04 T05 T06 T07 COM2 010 11 JBu Q 0LL L) a3NO Q S Q N 43 9 53 8 61 PNK PNK PNK 71 73 PNK PNK PNK GRY RED RED RED RED 18 8 18 GR PNK 8 18 8 M1 M2 d H Q Z e cRN e e e e 1e e 2TNO 11 1..3 14N0 W 0 a 0 z J o 18 1 1 1 1 Q J Q TB 16 18 20 22 24 26 ?� U v F4 F5 F6 F7 T13215 1 19 21 2 25 CD 0 2 2 2 2 PE So 52 55 12 14 RED RED RED OVAC 2 OV 18 18 18 Al Al Al Al Al Al 1.6 CR1 l l 14 4 GND1 — RED RED 18 18 3Al Al Al 1 1 24VAC TA2[TA2TA2[TA2TA2TA2 M1 M2 CR1 T1 B1 EL YEL IF 5 2 A2 A2 / 2 ` 2 Zone Control Zone Flush Filter Flush e e I—�1 120VAC.1 51 T T T 16 T TB2 29 30 1.0 18 e e 18 18 Wi N5 / 1.1 ..� :1,18Dry Alarm Contacts 'Ro N4 ,,�CA �,,, O O —1 Schematic 3— V1 �ALDERON 1 ndustrlas This drawing contains proprietary information which must not be duplicated, used, or disclosed Model {y� hp DWG NUI EZT-1CD4Z-230-16 Quote Number Drawn By J. Bonnier Page Number �,0�ESS/ ♦ Leading Edge Control Productsno Checked B B. Klabunde whole or in part without prior written consent. I Ibe 2 oF3 51201 \' y 15TH Si. SOUTH HAW FY MN. 56549 otes: 1. WARNING! Electrical Shock Hazard! Disconnect power before servicing this product. A qualified service person must install and service this product according to applicable electrical and plumbing codes �in2. Install in accordance with National Electric Code, NFPA 70, Seal all boxes, fittings, and conduit with appropriate seal devices to prevent moisture and gasses from entering enclosure. Date 1/19/2021 RevlSlOn 3. Connect all grounds to a good ground. 4. Dashed lines represent field wiring - Use minimum 60 deg C Copper Wre 5. Branch Circuit Protection Device/Disconnect Means Field Provided. ♦ 1 E-Z TREAT COMBO DRIP CONTROL PANEL 2 OF 3 -. IN ,• Il1l"11! % 0 1 2 3 4 5 6 7 8 9 Legend Field Wiring Field Supplied Device Tag Description CBL1 Ethernet Cable Cat5 GND1 8P Ground Bar 30 In -lb HMI1 IMI Displav 2.21n-lb OVDC.2 24VDC.2 HM11 ' usBz GND181 HG1G-4VT22TF-B «USB1 1 GBRN PE [T� 4 [T� 4 4 [T� 4 [7') PE 1 SID 1 RD 1 IRS 1 CS 7 SG 1 SDA 1 SDB 1 RDA 1 R B LAN CBL1 38.228 In SERIAL —2 Schematic =PRODUCTION_REPORT/1 �ALDERON" This drawing contains proprietary information Model Quote Number Drawn By B. Nelson Page Number Industries which not duplicated, used, disclosed DWG N u m be EZT-1 C D4Z-230-16 /� Leading Edge Control Products part in whole or in part without prior written consent. le or written Checked B B. Klabunde 3OF3 no 15TH ST. SOUTH Notes: 1. WARNING! Electrical Shock Hazard! Disconnect power before servicing this product. A qualified service person must install and service this product according to applicable electrical and plumbing codes Date 1 /19/2021 HAWLev MN. 565d1) 2. Install in accordance with National Electric Code, NFPA 70, Seal all boxes, fittings, and conduit with appropriate seal devices to prevent moisture and gasses from entering enclosure. 3. Connect all grounds to a good ground. 4. Dashed lines represent field wiring - Use minimum 60 deg C Copper Wire 5. Branch Circuit Protection Device/Disconnect Means Field Provided. Revi Sion E-Z TREAT COMBO DRIP CONTROL PANEL (3 OF 3 NTS U)V- J aLIL �o 0 LU o� H W Y Z a U M > Q Z�(0 V) W H N X W oa(DaX QQQZ a W d O LL Ch H J Z X 2 Z LIJ d V V) V U m O O N C 00 mp L) M N N O M Q M O O O CID h W M M N T Q C0 NLa Z J T ZZD��a% _jO —QX U W X Q LL ZUm�rn a�Oz� WQDd W CID Q Z J i Q O T U U CD Ow V W� C� CARD 0 FE-s ����, U ct 51201 O� s�4� GINE�� G . C . B N '•••••/111 >>�3a�zaz3 East Coast Investors, LLC Lot 62 & 63 Peninsula at Hyco Lake f : Q- a E 0 051201 _ Oc . NciNE�� Person County, North Carolina Specifications MacConnell & Associates, P.C. 501 Cascade Pointe Lane, Suite 103 Cary, North Carolina 27513 P.O. Box 129 Morrisville, North Carolina 27560 Phone: (919) 467-1239 Fax: (919) 319-6510 Table of Contents for Specifications Excavation and Backfilling...........................................................................................................1 Septic, Recirculation, and Field Dosing Tank Installation and Testing...................................2 Piping Installation and Testing.....................................................................................................4 E-Z Treat Dosing Pump...............................................................................................................4 FieldDosing Pump........................................................................................................................4 EZ Treat Combo Control Panel...................................................................................................4 E-Z Treat Treatment Unit Installation........................................................................................5 EffluentBypass Valve....................................................................................................................5 DenitrificationAssembly...............................................................................................................5 Hydraulic Unit Installation...........................................................................................................5 Drip Irrigation Line Installation..................................................................................................5 FillApplication Plan...........................................................................................7 Ultraviolet Disinfection Unit.........................................................................................................7 RainSensor....................................................................................................7 Project Specifications Excavation and Backfilling 1. Excavated materials acceptable as backfill shall be stockpiled in a location approved by the Owner. The materials shall be located away from the edge of any excavations. Excavated materials shall not be stored within the driplines of existing trees. 2. All open excavations shall be barricaded when construction in the area has stopped. Night barricading should include posted warning lights. 3. Protect existing structures, utilities, sidewalks, pavement, and other facilities from damage caused by settlement, lateral movement, undermining, washout, and other hazards created by earthwork operations. Protect root systems from damage or dry -out to the greatest extent possible. 4. Soil materials shall be free of boulders, roots, sod, organic matter, and frozen material. 5. Bedding materials for pre -cast concrete structure installation shall be #57 washed stone to the dimensions and depth shown on the construction drawings. 6. All excavation is unclassified and includes excavation to subgrade elevations indicated on the construction drawings regardless of character of materials and obstruction encountered. In the event that rock is encountered, the Contractor shall remove it at no additional cost to the owner. 7. Stability of excavations shall be maintained by sloping of the sides and shall comply with local codes, ordinances, and requirements of agencies having jurisdiction. Where space restrictions prevent sloping of the sides, shoring and bracing of the walls shall be employed in full compliance with OSHA requirements. In the case of pipe installations, sheeting shall remain in place until backfilling progresses to a stage where no damage to the pipe will result from removal. 8. The Contractor shall attempt to prevent surface and subsurface water from flowing into excavations. The Contractor shall provide equipment, materials, and work necessary to dewater any accumulation of water in the excavation to prevent softening of the soils, undercutting of footings, and changes to the soils detrimental to the stability of the improvements. 9. Excavations for structures shall conform to dimensions and elevations shown on the construction drawings within a tolerance of plus or minus 0.10 feet and to the standards of ASTM C891-90. 10. Backfill shall be installed to excavated spaces in 8-inch lifts and tamped by hand or pneumatically around pipe or structures. Tamping shall be performed evenly on both sides of East Coast Investors, LLC — Peninsula at Hyco Lake Lot 62 & 63 Surface Drip Irrigation with EZ Treat TS-II Pretreatment MacConnell & Associates, P.C. Project No.: C08662.00 pipe and around sides of structures to a depth such that damage to the pipe or structures is avoided as a result of subsequent methods of compaction. Extreme care shall be exercised in backfilling operations to avoid displacement of pipe and structures either horizontally or vertically. Backfill consolidation by ponding water is not permitted. Compaction of each layer of backfill and the top 6 inches of subgrade shall achieve a 90 percent maximum dry density as measured by AASHTO method T-99. 11. Remove all waste materials including unacceptable excavated material, trash, and debris and legally dispose of it off Owner's property. Where settling is measurable or observable at excavated areas during project warranty period, the Contractor shall remove surface finish, add backfill material, compact, and replace surface treatment to a quality and appearance matching adjacent areas of previous work. 12. Site specific excavation and backfilling requirement shall also comply as shown on the construction drawings. 13. If Applicable, all tanks excavated into bedrock shall have bedrock lined with 10-millimeter synthetic liner. Septic, Recirculation, and Field Dosing Tank Installation and Testing 1. Septic tanks shall conform to criteria in 15A NCAC 18A .1952-.1954. 2. Place bell ends of pre -cast sections or the groove end of the concrete facing down. In preparation for making joints, all surfaces of the portion of the section to be jointed and the factory -made jointing materials shall be clean and dry. Each joint, seam, and pipe penetration inside and outside of joints shall receive liberal applications of non -shrink grout as well as liberal amounts of bitumastic waterproof sealant. 3. Lifting holes and other penetrations of the pre -cast structure wall shall be sealed with nonshrinking grout. Pipe connections shall be made so that the pipe does not project beyond the inside wall of the structure. Grout connections as necessary to make smooth and uniform surfaces on the inside of the structure. 4. Before placing any tank into operation, remove any dropped grout, sand or other imperfections and obstructions from the interior of the structure. Specifically, the inside walls of the tank shall be smooth and uniform. Smooth -finish inverts so that wastewater flow is confined and directed through the inlet and outlet pipes with easy transition. 5. Tanks shall be backfilled in accordance with the applicable specifications herein before described. East Coast Investors, LLC — Peninsula at Hyco Lake Lot 62 & 63 Surface Drip Irrigation with EZ Treat TS-II Pretreatment MacConnell & Associates, P.C. Project No.: C08662.00 2 6. All pipe penetrations shall be through Press -Seal Cast -A -Seal 402 rubber connectors or approved equal. 7. All joints (mid -seam, top -seam) shall be sealed using Concrete Sealants butyl sealant #CS-102 meeting ASTM C-990. 8. All service access openings will be a minimum of 24 inches. Exceptions may be made on a case by case basis with E-Z Treat's and engineer's prior written approval. All access openings shall be fitted with E-Z Set riser assemblies. 9. A 24-hour static water test, in accordance with ASTM standards, shall be performed on all precast tanks in order to insure they are water tight. a. The testing shall be performed in the presence of the engineer or his representative. b. Each tank shall be filled with water and the initial water level shall be measured. c. At the end of the 24-hour period, the level of the water shall be measured again. d. The engineer shall pass the tank if the water level did not drop more than 0.5 inches or if the total volume of the displaced water is less than 1 percent of the total effective liquid capacity of the tank. e. Tanks may also be leak -tested by applying a vacuum of 5-inches of Hg with riser assemblies in place. f. Each failed tank shall be tested again. In the event that the tank does not pass the second test, the Contractor shall remove and replace the tank at no additional cost to the owner. 10. Septic Tank and E-Z Treat Recirculation Tank shall meet the following additional criteria: a. Minimum liquid depth of 36 inches. b. Minimum airspace of 9 inches. c. Length shall be at least twice as long as the width. d. Septic tank shall be constructed with a baffle wall dividing the tank interior 2/3rd to 1/3ra The baffle wall shall be constructed to permit passage of effluent through a slot or holes located between 45 and 55 percent of the interior depth. 11. Septic tank shall be fitted with a Sim Tech STF-110, Polylok PL — 122, or Engineer approved effluent filter that extends down to 50 percent of the liquid depth of the tank. 12. Septic tank shall be as specified on the constructions drawings. East Coast Investors, LLC — Peninsula at Hyco Lake Lot 62 & 63 Surface Drip Irrigation with EZ Treat TS-II Pretreatment MacConnell & Associates, P.C. Project No.: C08662.00 3 Piping Installation and Testing Piping shall be PVC and of type and size as shown on the construction drawings. Piping shall be installed with a minimum of three (3) feet of cover unless shown otherwise on the construction drawings. 2. Piping shall be installed to be able to meet a pressure test whereby the pressure remains constant for a minimum of two hours, and the allowable leakage is not more than 10 gpd/inch of pipe diameter/mile. 3. Any line installed under a driveway shall be sleeved in Class 52 Ductile Iron Pipe or encased in concrete and extend a minimum of 5 feet on either side and unless shown otherwise on the construction drawings. 4. Forcemains installed under streams and driveways shall be sleeved in Class 52 Ductile Iron Pipe. E-Z Treat Dosing Pump and Control Panel The E-Z Treat dosing pumps shall be one (1) Sta-Rite Step 30 1/2 horsepower multi -stage submersible pump for operation on a single phase, 115 Volt service. Field Dosing Pump 1. The field dosing pump shall be as specified on the construction drawings, or approved equal by Engineer. The motor shall meet the horsepower requirement for operation on a single phase service. EZ Treat Combo Control Panel 1. The control panel shall be EZT-1CD4Z-230-16 provided by E-Z Treat. 2. The control panel shall be in a NEMA 4X enclosure, installed in accordance with the manufacturer's recommendations, and within 10 feet of the E-Z Treat treatment unit. 3. No splices may be placed in the pump tank or riser. All splices shall be made above ground in a NEMA 4x junction box. 4. Control and alarm circuits shall be on separate circuits. East Coast Investors, LLC — Peninsula at Hyco Lake Lot 62 & 63 Surface Drip Irrigation with EZ Treat TS-II Pretreatment MacConnell & Associates, P.C. Project No.: C08662.00 5. RMSYS telemetry control panel or equal shall be connected to a phone line. If the local health department does not have access to the RMSYS website, a direct interface must be provided. System operator must be able to access the panel directly on site and shall be available with a 24 hour notice to the county in the event a direct connection is necessary. 6. The audible/visual alarms shall be external to any structure. E-Z Treat Treatment Unit Installation 1. The E-Z Treat Treatment Units shall be installed in accordance with the manufacturer's recommendations and as shown on the contract drawings. Effluent Bypass Valve 1. The effluent bypass valve shall be by E-Z Treat and shall be installed in accordance with the manufacturer's recommendations and as shown on the contract drawings. Denitrification Assembly 1. Valves and piping back to the front of the septic tank shall be integral with the pod dosing system. Hydraulic Unit Installation 1. The E-Z Set Drip hydraulic unit shall be installed in accordance with the manufacturer's recommendations and as shown on the contract drawings. 2. Electric solenoid zone valves shall be F (Model SVLVB-100). 3. Vortex filter shall be F (Model AP4E-1F). Drip Irrigation Line Installation 1. The drip irrigation lines shall be installed as shown on the construction drawings. The lines shall be laid parallel to the existing contours and laid completely level. East Coast Investors, LLC — Peninsula at Hyco Lake Lot 62 & 63 Surface Drip Irrigation with EZ Treat TS-II Pretreatment MacConnell & Associates, P.C. Project No.: C08662.00 5 2. Emitter spacing shall be 24-inches. There shall be 3-feet of spacing between adjacent drip lines. 3. Contractors shall ensure minimum disturbance of the soil in the wooded area. Weeds, trees and bushes less than 2 inches in diameter shall be removed, whereas vegetation that has diameter greater than 2 inches shall not be disturbed. 4. Harrow rake and backfill the soil if necessary. Native soil shall not be disturbed more than 1 inch into the soil profile. 5. Only rubber -tire, light -duty equipment shall be used in these areas. 6. No excavation for initial wastewater disposal field laterals shall occur while the project site is wet. 7. The retained trees shall maintain a minimum of three (3) feet in radius clearance area where no new soils shall be backfilled. Backfilled soils shall be gradually filled where the slope is one (1) vertically and three (3) horizontally. Drip lines shall not be placed within the three (3) feet clearance areas. 8. Retain as many well established trees as possible. Remove pine trees and retain hardwoods preferentially where tree displacements are necessary. 9. Leaf and vegetation matter shall be raked from irrigation site. 10. Limitations of soil disturbance shall be clearly addressed to responsible personnel. Any necessary disturbance that exceeds the soil disturbance limits shall be approved by engineer. 11. After completion of filling, backfilling, and grading, topsoil shall be spread uniformly to a depth of not less than thirteen (13) inches over the seasonal high ground water level. Topsoil shall be compacted lightly in an approved manner. The finished surface shall be in conformity with the lines, grades, and cross -sections shown on the Contract Drawings, as well as free from dips, bumps, and irregularities in alignment. 12. All fill and backfill shall be free from roots, wood scrap material, and other vegetable matter and refuse. Fill and backfill shall be placed in layers not more than eight (8) inches thick, loose except as specified otherwise herein, and each layer shall be compacted thoroughly and evenly. 13. For pipe trenches, fill and backfill, unless otherwise noted, shall be compacted to at least 90 percent of the maximum density at optimum moisture content, as determined by ASTM D 2167 (Modified Proctor Method). 14. The Contractor shall perform all grading in areas so indicated. Fill shall be brought to finished grades indicated on the Contract Drawings and shall be graded so as to drain water away from East Coast Investors, LLC — Peninsula at Hyco Lake Lot 62 & 63 Surface Drip Irrigation with EZ Treat TS-II Pretreatment MacConnell & Associates, P.C. Project No.: C08662.00 structures. Areas directly and indirectly affected by the construction work shall be graded to provide proper drainage and surfaces suitable for the use of mowing machines. 15. Surplus material not required for completion of the construction work or unsuitable for filling, backfilling, and/or grading shall be disposed of at the Contractor's expense in an approved spoil area and in accordance with local ordinances. 16. Field specific installation shall be as shown on the drawings. 17. Drip lines shall be installed in a manner to minimize disturbance to the existing vegetation on the disposal field. Ultraviolet Disinfection Unit 1. The ultraviolet unit shall be installed in accordance with the manufacturer's recommendations and as shown on the contract drawings. The unit shall be by E-Z Treat (Model E-Z UV 102) or approved equal by engineer. 2. A visual alarm shall be provided that alerts the homeowner when the primary bulb fails. After primary bulb failure, the backup bulb shall be good for 10,000 hours. Alarm panel shall be mounted within 6 feet of ultraviolet casing. 3. Casing shall be filled with water prior to powering up lamps. Rain Sensor A Hunter Mini-Clik rain sensor shall be installed adjacent to the hydraulic unit in an area that will receive precipitation (that is not covered by any trees). East Coast Investors, LLC — Peninsula at Hyco Lake Lot 62 & 63 Surface Drip Irrigation with EZ Treat TS-II Pretreatment MacConnell & Associates, P.C. Project No.: C08662.00 East Coast Investors, LLC Lot 62 & 63 Peninsula at Hyco Lake 01111111/1 O. SEAL = 0 051201 v = �7/'O �HGINE�� •�� Person County, North Carolina Engineering Calculations MacConnell & Associates, P.C. 501 Cascade Pointe Lane, Suite 103 Cary, North Carolina 27513 P.O. Box 129 Morrisville, North Carolina 27560 Phone: (919) 467-1239 Fax: (919) 319-6510 Septic Tank (19000 ST-502) Basic Dimensions Lid Thickness L 0.33 feet Lid Hole Diameter 1-11 24.00 inches Lid Hole Diameter (1-12) - If tank has only one hole, leave 24.00 (inches) blank. Lid Hole Diameter (1-13) - If tank has only one hole, leave 0.00 (inches) blank. Length of Tank A 8.88 feet Width of Tank B 4.29 feet Height of Tank Excluding Lid (C) - This value includes the 5.50 (feet) base thickness but excludes the lid thickness. Depth of Bury (Y) - This measurement extends from the 1.50 (feet) round level to the to of the lid. Wall Thickness T 0.25 feet Base Thickness E 0.33 feet Distance to Groundwater GW 0.00 feet Customizations To Add Ballast Add Concrete Inside the Tank: Initial Inside Height of Tank - This measurement is the value 5.17 (feet) ofC -E. Add concrete inside the tank to make thicker base? 0.00 (feet) If yes, how much? (U) If no, enter a value of 0. Please note: The value entered must be less than the inside height of the tank. Increase Thickness of the Base: Initial Base Thickness - This measurement is the value of E. 0.33 (feet) Add concrete below the base of the tank to make thicker base? 0.00 (feet) If yes, how much? F If no, enter a value of 0. Create Lip: Extend the base horizontally to create a lip? - The lip will be the thickness of E plus F, below, and it will extend this 0.00 (feet) horizontal distance, P, from all four tank walls. If yes, how much? P If no, enter a value of 0. Summary of Final Measurements after Ballast Customizations Final Base Thickness - This measurement is the sum of E 0.33 (feet) and F. Lip Thickness - This measurement is the sum of E and F. 0.33 feet Total Height of the Tank from the Top of the Lid to the Bottom of the Base - This measurement is the sum of L, C, and F. 5.83 (feet) This is equivalent to the sum of L, C - E, E, and F. Final Inside Height of Tank - This measurement is the value 5.17 (feet) ofC -E -U. Final Volume of Tank 164.17 cf Final Volume of Tank 1228.11(gallons) Unit Weights Unit Weight of Water 62.40 Ib/cf Unit Weight of Dry Soil 110.00 Ib/cf Unit Weight of Submerged Soil 47.60 (lb/cf) Unit Wei ht of Saturated Soil 120.00 Unit Wei ht of Concrete 150.00cf id Changes in Total Concrete Weight Due to Customizations Weight of extra concrete inside tank used to create thicker 0 (lb) base (Weight of extra concrete due to U Weight of extra concrete on bottom of tank used to create 0 (lb) thicker base (Weight of extra concrete due to F Weight of extra concrete due to lip (Weight of extra concrete 0 (Ib) due to P Wei ht of concrete removed due to lid hole 311 Ib Soil and Concrete Weights Weight of Soil on Lid 2271 ht of Soil on Li 0Wei TbWei ht of Lid Alone 1574 Weight of Empty Tank - This value is the sum of weights of the body of the tank, the tank lid, the lip (P, if applicable), the thickened base (F, if applicable), and the extra concrete inside 8371 (Ib) tank (U, if applicable), minus the weight of the concrete removed due to the hole in the lid. Water in Tank Water Level in Tank - Please note: The value entered must 0.00 (feet) be less than the final inside height of the tank. Wei ht of Water in Tank 0(lb) Weight of System Components Total Weight of Soil on Tank 2271(lb) Total Weight of Concrete 8371 Ib Total Weight Tank, Water in Tank, and Soil 10642(lb) Sliding Resistance Specific Gravity of Soil, SG 2.75 Friction Factor Found in Table 1), f 0.30 Void Ratio Found in Table 3), e 0.85 Ratio of Lateral to Vertical Earth Pressure (Found in Table 2), Ka 0.33 ISlicling Resistance 16577 Ib Uplift Force Uplift Force 13856.31 Ib Safety Factor 1.50 Uplift Force with Safety Factor 20784.46 Ib Additional Ballast Required NONE (ib) Recirculating Tank (1,000 PT 237) Basic Dimensions Lid Thickness (L) 0.33 (feet) Lid Hole Diameter (1-11) 24.00 (inches) Lid Hole Diameter (1-12) - If tank has only one hole, leave 30.00 (inches) blank. Lid Hole Diameter (1-13) - If tank has only one hole, leave 0.00 (inches) blank. Length of Tank (A) 7.79 (feet) Width of Tank B 4.96 feet Height of Tank Excluding Lid (C) - This value includes the 4.50 (feet) base thickness but excludes the lid thickness. Depth of Bury (Y) - This measurement extends from the 1.50 (feet) round level to the to of the lid. Wall Thickness (T) 0.25 (feet) Base Thickness E 0.33 feet Distance to Groundwater GW 0.00 feet Customizations To Add Ballast Add Concrete Inside the Tank: Initial Inside Height of Tank - This measurement is the value 4.17 (feet) ofC -E. Add concrete inside the tank to make thicker base? 0.00 (feet) If yes, how much? (U) If no, enter a value of 0. Please note: The value entered must be less than the inside height of the tank. Increase Thickness of the Base: Initial Base Thickness - This measurement is the value of E. 0.33 (feet) Add concrete below the base of the tank to make thicker base? 0.00 (feet) If yes, how much? (F) If no, enter a value of 0. Create Lip: Extend the base horizontally to create a lip? - The lip will be the thickness of E plus F, below, and it will extend this 0.00 (feet) horizontal distance, P, from all four tank walls. If yes, how much? P If no, enter a value of 0. Summary of Final Measurements after Ballast Customizations Final Base Thickness - This measurement is the sum of E 0.33 (feet) and F. Lip Thickness - This measurement is the sum of E and F. 0.33 (feet) Total Height of the Tank from the Top of the Lid to the Bottom of the Base - This measurement is the sum of L, C, and F. 4.83 (feet) This is equivalent to the sum of L, C - E, E, and F. Final Inside Height of Tank - This measurement is the value 4.17 (feet) ofC -E -U. Final Volume of Tank 135.45 (cf) Final Volume of Tank 1013.26(gallons) Unit Weights Unit Weight of Water 62.40 (Ib/cf) Unit Weight of Dry Soil 110.00 Ib/c Unit Weight of Submerged Soil 47.60 (lb/cf) Unit Weight of Saturated Soil 120.00 Ib/c Unit Wei ht of Concrete 150.00 Ib/c Changes in Total Concrete Weight Due to Customizations Weight of extra concrete inside tank used to create thicker 0 (lb) base (Weight of extra concrete due to U) Weight of extra concrete on bottom of tank used to create 0 (lb) thicker base (Weight of extra concrete due to F) Weight of extra concrete due to lip (Weight of extra concrete 0 (lb) due to P) Weight of concrete removed due to lid hole 398(lb) Soil and Concrete Weights Weight of Soil on Lid 2184 Ib Weight of Soil on Lip 0 (lb) Weight of Lid Alone 1514 (lb) Weight of Empty Tank - This value is the sum of weights of the body of the tank, the tank lid, the lip (P, if applicable), the thickened base (F, if applicable), and the extra concrete inside 7274 (lb) tank (U, if applicable), minus the weight of the concrete removed due to the hole in the lid. Water in Tank Water Level in Tank - Please note: The value entered must 0.00 (feet) be less than the final inside height of the tank. Weight of Water in Tank 0(lb) Weight of System Components Total Weight of Soil on Tank 2184 (Ib) Total Weight of Concrete 7274(lb) Total Weight Tank, Water in Tank, and Soil 9457(lb) Sliding Resistance Specific Gravity of Soil, SG 2.75 Friction Factor (Found in Table 1), f 0.30 Void Ratio (Found in Table 3), a 0.85 Ratio of Lateral to Vertical Earth Pressure (Found in Table 2), 0.33 Ka Sliding Resistance 11971 (lb) Uplift Force Uplift Force 11643.88 (lb) Safety Factor 1.50 Uplift Force with Safety Factor 17465.82(lb) Additional Ballast Required NONE (Ib) Field Dosing/Storage Tank (3,500 PT 484) Basic Dimensions Lid Thickness L 0.33 feet Lid Hole Diameter 1-11 24.00 inches Lid Hole Diameter (1-12) - If tank has only one hole, leave blank. 30.00 (inches) Lid Hole Diameter (1-13) - If tank has only one hole, leave blank. 0.00 (inches) Len th of Tank A 13.17 feet Width of Tank B 6.50 feet Height of Tank Excluding Lid (C) - This value includes the 6.67 (feet) base thickness but excludes the lid thickness. Depth of Bury (Y) - This measurement extends from the 1.50 (feet) round level to the to of the lid. Wall Thickness T 0.25 feet Base Thickness E 0.33 feet Distance to Groundwater GW 0.00 feet Customizations To Add Ballast Add Concrete Inside the Tank: Initial Inside Height of Tank - This measurement is the value 6.33 (feet) ofC -E. Add concrete inside the tank to make thicker base? 0.00 (feet) If yes, how much? (U) If no, enter a value of 0. Please note: The value entered must be less than the inside height of the tank. Increase Thickness of the Base: Initial Base Thickness - This measurement is the value of E. 0.33 (feet) Add concrete below the base of the tank to make thicker base? 0.00 (feet) If yes, how much? F If no, enter a value of 0. Create Lip: Extend the base horizontally to create a lip? - The lip will be the thickness of E plus F, below, and it will extend this 0.00 (feet) horizontal distance, P, from all four tank walls. If yes, how much? P If no enter a value of 0. Summary of Final Measurements after Ballast Customizations Final Base Thickness - This measurement is the sum of E 0.33 (feet) and F. Lip Thickness - This measurement is the sum of E and F. 0.33 feet Total Height of the Tank from the Top of the Lid to the Bottom of the Base - This measurement is the sum of L, C, and F. 7.00 (feet) This is equivalent to the sum of L, C - E, E, and F. Final Inside Height of Tank - This measurement is the value 6.33 (feet) ofC -E -U. Final Volume of Tank 481.33 cf Final Volume of Tank 3,600.62(gallons) Unit Weights Unit Weight of Water 62.40 Ib/cf Unit Weight of Dry Soil 110.00 Ib/cf Unit Weight of Submerged Soil 47.60 (lb/cf) Unit Wei ht of Saturated Soil 120.00 Ib/cf Unit Weight of Concrete 1 150.00 Ib/cf Changes in Total Concrete Weight Due to Customizations Weight of extra concrete inside tank used to create thicker 0.00 (lb) base (Weight of extra concrete due to U Weight of extra concrete on bottom of tank used to create 0.00 (Ib) thicker base (Weight of extra concrete due to F Weight of extra concrete due to lip (Weight of extra concrete 0.00 (lb) due to P Weight of concrete removed due to lid hole 402.52(lb) Soil and Concrete Weights Weight of Soil on Lid 5,535.86 Ib Weight of Soil on Lip 0.00(lb) Weight of Lid Alone 3,876.65(lb) Weight of Empty Tank - This value is the sum of weights of the body of the tank, the tank lid, the lip (P, if applicable), the thickened base (F, if applicable), and the extra concrete inside 17,259.98 (lb) tank (U, if applicable), minus the weight of the concrete removed due to the hole in the lid. Water in Tank Water Level in Tank - Please note: The value entered must 0.00 (feet) be less than the final inside height of the tank. Weight of Water in Tank 0.00 Ib Weight of System Components Total Weight of Soil on Tank 5,535.86 Ib Total Weight of Concrete 17,259.98 Ib Total Weight Tank, Water in Tank, and Soil 22,795.84(lb) Sliding Resistance S ecific Gravity of Soil, SG 1 2.75 Friction Factor Found in Table 1), f 1 0.30 Void Ratio Found in Table 3), e 1 0.85 Ratio of Lateral to Vertical Earth Pressure (Found in Table 2), Ka 0.33 Sliding Resistance 33,295.49 Ib Uplift Force Uplift Force 37,382.80 Ib Safety Factor 1.50 Uplift Force with Safety Factor 56 074.20 Ib Additional Ballast Required NONE (Ib) Subject: E-Z Treat Pod Flotation Uolift Calculations Pod Length = 7.75 ft. Assume the folowing densities: Pod Width = 7.75 ft. Pod Height = 3.00 ft. 5/4 Trex Board = 60 # / Cu. Ft. Natural Soil Depth (for Flotation) = 0.50 ft. Water = 62.4 # / Cu. Ft. Fill Soil Depth (for Ballast) = 2.50 ft. Soil = 100 # / Cu. Ft. 5/4 Trex Board Length = 8.00 ft. 5/4 Trex Board Width = 0.46 ft. 5/4 Trex Board Thickness = 0.09 ft. Number of Boards = 4 Determine Upward Forces: Pod Area = 60.06 sq. ft. Pod Buried Volume = 30.03 Cu. ft. IlTotal Buoyant Force of Basin = 1,874 # 5/4 Trex Board Area = 14.67 sq. ft. 5/4 Trex Board Volume = 1.34 Cu. ft. IlTotal Buoyant Force of Trex Board = 84 # Soil Area Over 5/4 Trex Board = 14.67 sq. ft. Soil Volume Over 5/4 Trex Board = 7.33 Cu. ft. IlTotal Buoyant Force of Soil = 458 # Total Upward Forces = 2,415 # Determine Downward Forces: 5/4 Trex Board Area = 14.67 sq. ft. 5/4 Trex Board Volume = 1.34 Cu. ft. IlTotal Weight of Trex Board = 81 # Soil Area Over 5/4 Trex Board = 14.67 sq. ft. Soil Volume Over 5/4 Trex Board = 36.67 Cu. ft. IlTotal Weight of Soil = 3,667 # Total Downward Forces = 3,747 # Factor of safety = Total Downward = 1.55 Total Upward = 1.55 > 1.00 = OK "Weight of pod, mattress, and piping are not counted in downward forces. MacConnell & Associates, P.C. Project: Surface Drip System with TS-ll Pretreatment Project Number: C08662.00 Location: Person County, North Carolina Subject: Tank and Treatment Sizing Calculations Date: November 30, 2023 Assumptions And Calculations: 1. Treatment flow is based on unadjusted flow. 2. Irritation flow is based on reduced flow Number of Bedrooms: Average Daily Flow per Bedroom: Unadjusted Design Flow: Flow Reduction: Adjusted Flow: Sizing Calculations Per Innovative Approval Table 1- Model 600 and Tank Volumes Note: Input Calculated 3.0 Rooms Given 120 GPD 15A NCAC 18A .1949 360.0 GPD 25 % 15A NCAC 18A .1949 270.0 GPD Minimum Septic Minimum Design Daily Tank Volum Recirculation/Pump Tank Flnwtondl toallonO Volume laallnnsl** N—h— of Media Pndc < 480 1,000 1,250 1 Model 600 pod 4 Bedrooms 1,000 1,800 1 Model 600 pod 5 Bedrooms 1,250 2,000 1 Model 600 pod 6 Bedrooms 1,500 2,200 2 Model 600 pod 601 - 1,500 V=1.17Q+500 V=1.17Q+500 1 Model 600 pod per 600 gallons 1,501 - 3,000 V=0.75Q+1,125 V=0.75Q+1,125 1 Model 600 pod per 600 gallons **Recirculation/pump tank minimum size based on total internal tank volume. Recirculation/Pump Tank Volume = Recirculation Tank(Chamber) Volume + Pump Tank( Chamber) Volume SEPTIC TANK DESIGN: Minimum Septic Tank Volume Required: Septic Tank Volume Provided: Septic Tank storase and effective volume calculations: Septic Tank Total Void Volume = L * W * D: Tank length: Tank Width: Tank Depth: Total Void Volume: Septic Tank Effective Volume = L * W * Lowest Invert To Tank Bottom: Tank length: Tank Width: Lowest Invert: Effective Volume: 1,000.0 Gallons 1,000.0 Gallons 8.0 foot 3.8 foot 5.2 foot 1,172.3 Gallons 8.0 foot 3.8 foot 4.5 foot 1,021.0 Gallons Septic Tank Treatment Detention Time: 2.8 Days Effective Volume / ADF E-Z TREAT DESIGN: Pod Dimension - Length 7.3 Feet Given Pod Dimension - Width 4.0 Feet Given Pod Dimension - Height 3.3 Feet Given Pod Surface Area 28.9 ft2 L x W Rated Loading Rate per Pod 700.0 GPD Given E-Z Treat Pods Required: 0.4 ADF/Pod Loading Rate E-Z Treat Pods Used: 1 Pod E-Z Treat Dose per Pod: 34.0 Gallons Given E-Z Treat Volume per Dose 34.0 Dose per Pod x Number of Pods Re -Circulation Timer On: 2.5 Minutes Given Re -Circulation Timer Off: 12.0 Minutes Given E-Z Treat Re -Circulation Cycles per Day: 99.3 Cycles Time per Day / Time per Cycle Total E-Z Treat Flow per Day: 3376.6 Gallons E-Z Treat Volume/Dose x Cycles/Day E-Z Treat Re -Circulation Ratio: 9.4 E-Z Treat Flow per Day / ADF Denitrification Gallons Returned: 993.1 GPD Denitrification Return Setting: 4.0 GPM E-Z Treat Surface Area: 28.9 ft2 E-Z Treat Loading Rate: 12.5 GPD/ft' ADF/Surface Area E-Z Treat Recirculation Pump Selection Shall Be As Shown On Drawings. Minimum Pump/Re-Circulation Tank Volume Required: 1,000.0 Gallons Recirculation Tank Volume Provided: 1,000.0 Gallons Field Dosing Tank Provided: 3,500.0 Gallons Pump/Re-Circulation Tank Volume Provided: 4,500.0 Gallons Recirculation Tank storage and effective volume calculations: Recirculation Tank Total Void Volume = L * W * D: Tank length: 7.3 foot Tank Width: 4.5 foot Tank Depth: 4.2 foot Total Void Volume: 1,013.2 Gallons Recirculation Tank Effective Volume = L * W * Lowest Invert To Tank Bottom: Tank length: 7.3 foot Tank Width: 4.5 foot Lowest Invert To Tank Bottom: 3.4 foot Effective Volume: 830.8 Gallons Recirculation Tank Effective Volume to Pump Off= L * W * Lowest Invert To Pump -Off Elevation: Tank length: 7.3 foot Tank Width: 4.5 foot Lowest Invert To Pump -Off: 1.9 foot Effective Volume: 466.1 Gallons Recirculation tank is an all-time-rilled storage/pump tank. Field Dosing Tank storage and effective volume calculations: Field Dosing Tank Total Void Volume= L * W * D: Tank length: 12.7 foot Tank Width: 6.0 foot Tank Depth: 6.3 foot Total Void Volume: 3,600.4 Gallons Field Dosing Tank Effective Volume To Tank Bottom = L * W * Lowest Invert To Tank Bottom: Tank length: 12.7 foot Tank Width: 6.0 foot Lowest Invert To Tank Bottom: 5.4 foot Effective Volume: 3,079.3 Gallons Field Dosing Tank Effective Volume To Pump Off = L * W * Lowest Invert To Pump Off: Tank length: Tank Width: Lowest Invert To Pump Off: Effective Volume: Days of Field Dosing Storage (Effective Volume/ADF): Total System Effective Storage = Annual Loading from Soil Scientist: Maximum Instantaneous Loading Rate from Soil Scientist: Total Field Area Required: Total Field Area Provided: (Wetted Area) Annual Loading Rate Provided: (ADF x 365 Days per Year x 43,560 / 27,154 / Area Provided) Total Irrigation Flow: (Set by Design) Instantaneous Loading Rate Provided: (Total Irrigation Flow x 96.3) / Total Field Area Provided 12.7 foot 6.0 foot 3.9 foot 2,226.5 Gallons 6.2 Days >5days per 15A NCAC 02T .0605(m) 3,713.6 Gallons 18.67 Inches/Year 0.3 Inches/Event (Hour) 8,468 Square Feet 8,610 Square Feet 18.36 Inches/Year 6.34 GPM Dose Flow per Geoflow Calculations 0.07 Inches/Hour MacConnell & Associates, P.C. Project: Surface Drip System with TS-II Pretreatment Project Number: C08662.00 Location: Person County, North Carolina Subject: E-Z Treat Treatment Calculations Date: November 30, 2023 Assumptions And Calculations: Notes: Input Calculated Influent Characteristics: BOD (5-Day): 300 mg/l From EPA Design Manual TSS: 300 mg/l From EPA Design Manual NH3: 25 mg/1 N-Organic: 34 mg/l TKN: 59 mg/l N-Organic + NH3 NO3 + NO2: 1 mg/l TN: 60 mg/l TKN + NO3 + NO2 Total Coliforms: 75,000,000 Number From NSF 350 Approval Effluent Limits: Biochemical Oxygen Demand (BOD5): <30 mg/L Proposed Effluent Limit per 15A NCAC 02T .0605 Total Suspended Solids (TSS): <30 mg/L Proposed Effluent Limit per 15A NCAC 02T .0605 Ammonia Nitrogen - NH4-N <15 mg/L Proposed Effluent Limit per 15A NCAC 02T .0605 Total Nitrogen (TN) <20 mg/L Proposed Effluent Limit per 15A NCAC 02T .0605 Fecal Coliform: <200 /100 ml Proposed Effluent Limit Geometric Mean per 15A NCAC 02T .0605 Septic Tank: Design: BOD Removal: 60.0 Percent Given TSS Removal: 70.0 Percent Given NH3 Removal: 0.0 Percent Given N-Organic Removal: 35.0 Percent N-Organic Converted to NH3: 50.0 Percent NO3 + NO2 Denitrified: 90.0 Percent Total Coliforms Removal: 50.0 Percent Septic Tank Effluent Concentrations: BOD (5-Day): 120.0 mg/l Concentration - Percent Removed TSS: 90.0 mg/l Concentration - Percent Removed NH3: 42.0 mg/l Concentration - Percent Removed + N-Organic Converted to NH3 N-Organic: 17.0 mg/l Concentration - Percent Removed - N-Organic Converted to NH3 TKN: 59.0 mg/l N-Organic + NH3 NO3 + NO2: 1.0 mg/l NO3 + NO2 Effluent + Return from Recite Tank - Denitrified TN: 60.0 mg/l TKN + NO3 + NO2 E. Coliforms: 37,500,000.0 /100 ml Concentration - Percent Removed Media Filters (E-Z Treat Pod): BOD Removal: 95.0 Percent Given TSS Removal: 95.0 Percent Given NH3 Removal (to Air): 2.0 Percent Given NH3 Nitrified to NO3 + NO2 : 95.0 Percent Given N-Organic Converted to NH3: 95.0 Percent NO3 + NO2 to Septic for Denitrification: 90.0 Percent E. Coliforms Removal: 50.0 Percent E-Z Treat/Re-Circ. Tank Effluent Concentrations: BOD (5-Day): 6.00 mg/l Concentration - Percent Removed TSS: 4.50 mg/l Concentration - Percent Removed NH3: 2.87 mg/l Concentration - Percent Removed + (S.T. Cone. + (N-Organic to NH3) Nitrified) N-Organic: 0.85 mg/l Concentration -N-Organic Converted to NH3 TKN: 3.72 mg/l N-Organic + NH3 NO3 + NO2: 2.05 mg/l NO3 + NO2 S.T. Effluent + Nitrified NH3 - Return to Septic Tank TN: 5.76 mg/l TKN + NO3 + NO2 Total Coliforms: 18,750,000.0 /100 ml Concentration - Percent Removed Ultraviolet Disinfection: Desi¢n UV Dosing Rate: 10.0 gpm Flow Rate Number of Units: 1 Units Pump Flow/Dosing Rate BOD Removal: 0.00 Percent Given TSS Removal: 0.00 Percent Given NH3 Removal: 0.00 Percent Given N-Organic Removal: 0.00 Percent Given NO3 + NO2 Removal: 0.00 Percent Total Coliforms Removal: 99.999000000 Percent Ultraviolet Disinfection Effluent Concentrations: BOD (5-Day): 6.00 mg/l Concentration - Percent Removed CBOD: <6.00 mg/l CBOD < BOD5 as CBOD only measures oxidation of carbons. TSS: 4.50 mg/l Concentration - Percent Removed NH3: 2.87 mg/l Concentration - Percent Removed + (S.T. Cone. + (N-Organic to NH3) Nitrified) N-Organic: 0.85 mg/l Concentration -N-Organic Converted to NH3 TKN: 3.72 mg/l N-Organic + NH3 NO3 + NO2: 2.05 mg/l NO3 + NO2 S.T. Effluent + Nitrified NH3 - Return to Septic Tank TN: 5.76 mg/l TKN + NO3 + NO2 Total Coliforms: 187.50 /100 ml Concentration - Percent Removed Fecal Coliforms: < 187.50 /100 ml Fecal Coliforms < Total Coliforms < 200 colonies/100ml = Okay FIELD FLOW Project Number: C08662.00 Contact: MacConnell and Associates, P.C. Prepared by: Cricket Corwin (Checked by David Barcal) Date: 30-Nov-23 Worksheet 1- Field Flow (Initial System) Total field Total Quantity of effluent to be disposed per day 270 gallons / day Hydraulic loading rate 0.032 gallons / sq.ft. / day Minimum Dispersal Field Area 8,468 square ft. Total Dispersal Field Area 8,610 square ft. Flow per zone Number of Zones 2 zone(s) Dispersal area per zone 4,305 square ft. Choose line spacing between WASTEFLOW lines 3 ft. Choose emitter spacing between WASTEFLOW emitters 2 ft. Total linear ft. per zone (minimum required) Total number of emitters per zone Select Wasteflow dripline (16mm) 1,435 ft. per zone 718 emitters per zone Wasteflow PC - 1/2gph dripline Pressure at the beginning of the dripfield 25 psi Feet of Head at the beginning of the dripfield 57.75 ft. What is the flow rate per emitter in gph? 0.53 gph Dose flow per zone 6.34 gpm Note: A few States or Counties require additional flow for flushing. Please check your local regulations. Flush velocity calculation below is for PC dripline. Classic dripline requires less flow to flush than PC. se refer ' °low's spreadsheet" •sign Flow and I -ves" at w - corn or call 800-82,' If required, choose flush velocity 2 ft/sec How many lines of WASTEFLOW per zone? 6 lines Fill in the actual length of longest dripline lateral 300 ft. Flush flow required at the end of each dripline 1.48 gpm Total Flow required to achieve flushing velocity 8.88 gpm Total Flow per zone- worst case scenario 15.22 gpm Select Filters and zone valves Select Filter Type Vortex Screen Filter Recommended Filter (item no.) AP4E-1.5F 1.5in Screen Filter 0-45gpm Select Zone Valve Type Electric Solenoid - Recommended Zone Valve (item no.) I SVLVB-100 1-in. Solenoid valve Dosing Number of doses per day / zone: 1 doses Timer ON. Pump run time per dose/zone: 21.18 mins:secs Timer OFF. Pump off time between doses 23:38 hrs:mins Per Zone - Pump run time per day/zone: 0:21 hrs:mins All Zones - Number of doses per day / all zones 2 doses / day Allow time for field to pressurize 0:00:30 hrs:mins:secs Filter flush timer 0:00:20 hrs:mins:secs Drain timer 0:05:00 hrs:mins:secs Field flush timer 0:01:00 hrs:mins:secs Field flush counter 14 cycles Time required to complete all functions per day 0:56 hrs:mins Dose volume per zone 135 gallons per dose Allow time in the day for controller to have pressurization and drainage time. PUMP SIZING Job Description: _ C08662.00 Contact: MacConnell and Associates, P.C. Prepared by: Cricket Corwin Checked by David Barcal Date: 1113012023 Worksheet - Pump Sizing Initial System) Section 1 - Summary from Worksheet 1 Flow required to dose field 6.34 gpm Flow required to flush field 8.88 gpm Flow required to dose & flush field 15.22 gpm Filter AP4E-1.5F No. of Zones 2 zones Zone valve SVLVB-100 Dripline Wasteflow PC - 1/2gph Dripline longest lateral 300.00 ft. Section 2 Ft of head Pressure A. Flush line - Losses through return line Select Pipe from dropdown menu PVC schedule 40 Select Flush Line Diameter 1-1/4" inch Length of return line 140 ft. Equivalent length of fittings 35.00 ft. Elevation change. (if downhill enter 0) 0 ft. Pressure loss in 100 ft of pipe 1.33 ft. 0.58 psi Total pressure loss from end of dripline to return tank 2.3 ft. 1.01 psi B. nripline - Losses through Wasteflow dripline Length of longest dripline lateral 300 ft. Minimum dosing pressure required at end of dripline 23.10 ft. 10.00 psi Loss through dripline during flushing 8.45 ft. 3.66 psi Total minimum required dripline pressure 31.55 ft. 13.66 psi A+B. Minimum Pressure required at beginning of dripfield CALCULATED pressure required at beginning of dripfield 33.88 ft. 14.67 psi SPECIFIED pressure at beginning of dripfield (from worksht 1) 57.8 ft. 25.00 psi Great! SPECIFIED Pressure is greater than CALCULATED Pressure requirement. Go to next step C. Drip components - Losses through headworks Filter 15.0 ft. 6.50 psi Zone valve pressure loss (not in diagram) - ft. 2.00 psi Flow meter pressure loss (not in diagram) 5.00 ft. 2.16 psi Other pressure losses 5.00 ft. 2.16 psi Total loss through drip components 25.02 ft. 12.83 psi Geoflow, Inc. Pump Selection Worksheet, V.2003H 2/26/2024 D. Supply line - Minimum Pressure head required to get from pump tank to top of dripfield Select Pipe from dropdown menu PVC schedule 40 Select Supply line diameter 1-1/2" inch Length of supply line 140 ft. Equivalent length of fittings 35 ft. Height from pump to tank outlet 4.50 ft. Elevation change. (if downhill enter 0) 17 ft. Pressure loss/gain in 100 ft. of pipe 1.70 ft. 0.74 psi Total gain or loss from pump to field 24.5 ft. 10.60 psi Total dynamic head 107.2 ft. 46.43 psi Pump capacity * - Field Flush Flow 15.2 gpm 46.43 psi - Field Dose Flow 6.3 gpm - Filter Flush Flow - gpm - psi Pump Model Number Sta-Rite Step 20, 1/2hp Voltz / Hp / phase 1115v AC, 0.5 HP, 1 Phase Note: Pump capacity flow assumes flow in dripline does not change during a dose cycle. With Wasteflow Classic this can bi For more accurate flows please see Geoflow's Flushing worksheet. If you need assistance designing for this additional flow, please a. See Geoflow flushing worksheet or b. Contact Geoflow at 800-828-3388. Geoflow, Inc. Pump Selection Worksheet, V.2003H 2/26/2024 East Coast Investors, LLC Lot 62 & 63 Peninsula at Hyco Lake �,A C SE 051201 �7,O . FNGINE�� Person County, North Carolina Equipment MacConnell & Associates, P.C. 501 Cascade Pointe Lane, Suite 103 Cary, North Carolina 27513 P.O. Box 129 Morrisville, North Carolina 27560 Phone: (919) 467-1239 Fax: (919) 319-6510 J O O 6) 'o 0 N c0 CT C� p 0 0 O d) d) J ® O G) J O O G 6) e o0 0 z 0 (-0 CIA o z w D 0 _ ao M �v z 0 DAVID BRANTLEY &SONS PREPARED FOR : David Brantley & Sons REVISION NO. DATE BRANTLEY TAW MODEL 37 Pine Ridge Rd. Original Submittal April 11, 2014 37 Pine Ridge Rd. Zebulon, NC 27597 Revision 1 17000 ST 502 Zebulon, NC 27597 DATE : April 11, 2014 Office 252-478-3721 CONTACT: Revision 2 Fax 919-573-0443 CORY BRANTLEY Revision 3 SHEET NUMBER linstalleregmail.com Master Set ----- 1 Of 1 cn cn (_0 C� C� Iv O) c0 Ul 0 0 o TT O � N O ® � o � C7 0 CJ� O Z3 N 77 ZW O� N O Ui Z 0 ' Z O D T11 n11 C0 M �v z 0 DAVID BRANTLEY �i SONS PREPARED FOR : David Brantley & Sons REVISION NO. DATE BRANTLEY TANK MODEL 37 Pine Ridge Rd. Original Submittal April 11, 2014 37 Pine Ridge Rd. Zebulon, NC 27597 Revision 1 1, 000 PT 237 Zebulon, NC 27597 DATE : April 11, 2014 Office 252-478-3721 CONTACTRevision 2 Fax 919-573-0443 CORY BRANTLEY Revision 3 SHEET NUMBER linstaller•gmail.com Master Set ----- 1 of 1 CA) Is 0 A z 00 �A I I 00 S2' D Tn 11 0 ai M D z 0 C-I } J 00 O — 00 C-I co 0 c .0 r DAVID BRANTLEY �i' SONS 37 Pine Ridge Rd. Zebulon, NC 27597 Office 252-478-3721 Fax 919-573-0443 linstalleregmail.com PREPARED FOR : David Brantley & Sons 37 Pine Ridge Rd. Zebulon, NC 27597 KLviSioN No. UAiL BRANTLEY TAW MODEL 37500 PT 484 Original Submittal April 11, 2014 Revision 1 DATE : April 11, 2014 Revsion 2 CONTACT: CORY BRANTLEY SHEET NUMBER 1 of 1 Revision 3 Master Set NORTH CAROLINA DEPARTMENT OF HEALTH AND HUMAN SERVICES DIVISION OF PUBLIC HEALTH ENVIRONMENTAL HEALTH SECTION ON -SITE WATER PROTECTION BRANCH INNOVATIVE WASTEWATER SYSTEM APPROVAL fNNOVATIVE WASTEWATER SYSTEM NO: IWWS 2015-03-R2 Issued To: E-Z Treat Company PO Box 176 Haymarket, VA 20168 703-408-2911; Fax: 703-753-5043 Contact: Carl Perry, President Michael Stidham, Vice President For: E-Z Treat Model 600 Pretreatment Systems Approval Date: April 24, 2015 June 15, 2015 January 6, 2017 Tank Size and Sampling Revisions Addition of Single Bulb UV Unit In accordance with General Statute 130A-343, 15A NCAC 18A. 1969 and .1970, a proposal by E-Z Treat Company for an approval of subsurface wastewater systems utilizing the E-Z Treat Pretreatment systems has been reviewed, and found to meet the standards of an innovative system when all of the following conditions are met: I. General A. Scope of this Innovative Approval 1. Design, installation, use, and operation and maintenance guidelines for E-Z Treat Pretreatment systems to meet TS-I and TS-II effluent standards pursuant to Rule 15A NCAC 18A .1970. Refer to Rule .1970(a) Table VIII — Effluent Quality Standards for Advanced Pretreatment Systems for treatment performance levels. 2. Operation, maintenance and monitoring requirements for E-Z Treat Pretreatment systems and associated subsurface systems to ensure the treatment performance standards are met. B. This Innovative System Approval is applicable to domestic strength sewage systems (non -industrial wastewater) utilizing E-Z Treat Pretreatment Systems that have a design flow not exceeding 3,000 gallons per day (gpd). Use of E-Z Treat Pretreatment systems for facilities with an influent waste strength that exceeds domestic septic tank quality effluent standards pursuant to Rule 15A NCAC 18A .1970(b) may be proposed by E-Z Treat Company and a North Carolina Professional Engineer to the Department for review and approval on a case -by -case basis, prior to permitting by the local health department (LHD). The system design must include the proposed raw wastewater strength (BOD5, COD, TN, TSS, fats, oils and grease, etc.), the expected organic loading rate (in pounds IWWS-2015-03-R2 January 6, 2017 Page 2 of 10 of BOD), and hydraulic loading rate on the pretreatment system, and the calculations, references, and any other needed information to support the proposed design. C. Any site utilizing these systems shall have wastewater with sufficient alkalinity to facilitate biological treatment processes. The influent shall not have a pH or toxins that significantly inhibit microbial growth. D. Use of E-Z Treat Pretreatment systems that have a design flow exceeding 3,000 gallons per day may be permitted after approval by the Department on a case -by -case basis in accordance with the Large Systems State Review/Approval Process (Rule 15A NCAC 18A.1938). II. System Description The E-Z Treat Pretreatment system consists of the following components: a Department approved septic tank; a recirculation tank (or chamber); single or multiple E-Z Treat Pretreatment pods; and a final dosing tank (or chamber). Additional treatment may be used to ensure that treatment performance standards shall be met. The E-Z Treat Pretreatment system can utilize either a two tank configuration or a three tank configuration. The two tank configuration has the following components: the first tank is a septic tank and the second separate tank has a recirculation chamber and final dosing chamber. The three tank configuration consists of three separate tanks: a septic tank, a recirculation tank, and a final dosing tank. III. Siting Criteria The E-Z Treat Pretreatment systems and associated drainfields shall be sited and sized in accordance with Rule .1970 for TS-I and TS-II systems. Drip irrigation systems used with E-Z Treat Pretreatment systems shall be sited and sized in accordance with the manufacturer specific drip approval. The E-Z Treat Pretreatment systems and associated drainfields shall meet all applicable horizontal setback requirements and be located to prevent surface/subsurface water inflow/infiltration. IV. System Sizing The system sizing criteria shall be based upon the long term acceptance rate specified in the appropriate portion of the rules or the Innovative and Experimental system approval for the type of ground absorption system to be used. V. Special Site Evaluation A special site evaluation may be required based on the proposed ground absorption system. Refer to manufacturer specific drip approvals and Rule .1970(p). VI. Design Criteria A. The E-Z Treat Pretreatment system shall be designed in accordance with the following criteria. 1. All tanks, septic, recirculation, and dosing, must be approved by the Department and E-Z Treat Company specifically for use with the E-Z Treat Pretreatment system. 2. The E-Z Treat Pretreatment system can utilize either a two tank configuration or a three tank configuration. The two tank configuration has the following components: the first tank is a IWWS-2015-03-R2 January 6, 2017 Page 3 of 10 septic tank and the second separate tank has a recirculation chamber and final dosing chamber. The three tank configuration consists of three separate tanks: a septic tank, a recirculation tank, and a final dosing tank. 3. The E-Z Treat Pretreatment system consists of a septic tank, a recirculation tank/chamber, a final dosing tank/chamber, and E-Z Treat media pod(s) as specified in Table 1 below. Table 1 — Model 600 and Tank Volumes Design Daily Flow (gpd) Minimum Septic Tank Volume (gallons) Minimum Recirculation/Pump Tank Volume (gallons)** Number of Media Pods < 480 1,000 1,250 1 Model 600 pod 4 Bedrooms 1,000 1,800 1 Model 600 pod 5 Bedrooms 1,250 2,000 1 Model 600 pod 6 Bedrooms 1,500 2,200 2 Model 600 pods 601 — 1,500 V = 1.17Q* + 500 V = 1.17Q + 500 1 Model 600 pod per 600 gallons 1,501 — 3,000 V = 0.75Q + 1,125 V = 0.75Q + 1,125 1 Model 600 pod per 600 gallons *Q — design daily flow **Recirculation/pump tank minimum size based on total internal tank volume. 4. Septic tanks will have an inlet sanitary tee and a Department approved, appropriately sized effluent filter on the outlet end approved by the E-Z Treat Company for use with the E-Z Treat. 5. The minimum required volume in the recirculation chamber/tank prior to discharge to the dosing tank/chamber shall be the design daily flow. 6. The recirculation tank/chamber will contain the recirculating splitter valve or an external splitter box may be used. The recirculation tank/chamber shall have an inlet sanitary tee. The sanitary tee shall be visible and reachable from the riser opening to serve as the influent sampling point. 7. When the recirculation tank and dosing tank are combined, the baffle wall between chambers shall extend to the top of the tank and shall be constructed so that the liquid levels in either compartment are independent. Liquids will not by-pass between compartments except as designated by the system's treatment flow path. 8. The final dosing tank must meet the minimum size requirements of Rule .1952(c)(1). For drip irrigation systems, the requirements of the manufacturer specific drip approval for dosing tanks shall also be met. 9. A drainback configuration without a pump check valve is required for the force main supplying the media pod. 10. Recirculation pump shall be either Sta-Rite Model number STEP 20 or manufacturer approved equal. 11. The E-Z Treat media pod is constructed of a polymer suitable for use in contact with wastewater. The Model 600 pod is approximately 7 ft 4 inches x 4 ft with a surface area approximately of 30 square feet and is 42 inches in depth. The pod is fitted with a weatherproof cover properly secured. The pod is designed and constructed to create channels down the sidewalls to facilitate air flow. The sidewall channels provide airspace to the bottom of the pod. The bottom of the vessel is designed to provide total drainage of the treated effluent back to the recirculation tank/chamber. IWWS-2015-03-R2 January 6, 2017 Page 4 of 10 12. As the effluent enters the recirculation tank/chamber, this tank/chamber acts to further separate the septic tank effluent. The effluent entering the recirculation tank/chamber is charged by the recirculation pump to the media pod(s). The effluent is sprayed over the media mattress(es) using a spray manifold of evenly spaced wide-angle spray nozzles. The nozzles are manufactured with a free passage of 0.0625 inches in diameter. The system is set to recirculate effluent through the media pod on an average of 4 to 6 times prior to discharge. 13. The effluent is sprayed on mattress(es) measuring a total area of 30 square feet. The mattress(es) are fabricated from a non -biodegradable, chemically resistant, loose weave polypropylene material. The openings in the weave allows for effluent and air flow while containing the media. The media inside the mattress(es) are made of a styrene material. The specific gravity of this material meets the following criteria: light enough to prevent compaction which results in a loss of effective surface area, and provides a reduction in channeling across the media (short-circuiting). 14. Effluent passes through the media and enters a schedule 40 pipe located at the bottom of the pod. The effluent than gravity feeds back to the recirculation tank/chamber and the process is repeated. 15. The effluent bypass valve or splitter box is piped to intercept filtered wastewater and deliver it to the recirculation tank/chamber or the dosing tank/chamber, based on liquid volumes. 16. The Control Panel for the E-Z Treat System will consist of: recirculation pump on/off timer, discharge pump alarm, and high/low water alarm. Control panels shall meet the requirements of .1952 and shall be approved in writing by E-Z Treat Company for use in their systems. 17. Separate control and alarm circuits will be provided. The E-Z Treat systems will utilize a device for the recording of measurements of daily water flows. The device shall provide a means for determining at least the daily, 7-day, and 30-day flow monitoring requirements of Rule .1970. This information will be stored in the data logger for drip irrigation systems (provided by the manufacturer of the drip irrigation control panel). For pressure manifold and LPP systems, the Aquaworx control panel or manufacturer approved equal shall be used. The operator in responsible charge (ORC) of the system authorized in writing by E-Z Treat Company must be able to access the panel directly on site and shall be available to the L14D with 24-hour notice in the event a direct connection is necessary. 18. The UV disinfection system shall be rated for the appropriate discharge rate from the E-Z Treat pod. The UV disinfection system will be one of the following: a. E-Z Set UV-10005 (single bulb); b. E-Z Set UV-1000 (dual alternating bulbs); or c. Other UV systems specifically approved by the Department and E-Z Treat Company. 19. All access riser hatches shall be secured by approved tamper -resistant hardware approved by the manufacturer or by other means approved by the manufacturer as equal. Riser construction, attachment to tanks and security systems shall be pre -approved by the Department and E-Z Treat Company in accordance with the E-Z Treat specific approvals for the septic tanks and pump tanks, as applicable. 20. Buoyancy calculations shall be completed by a NC Professional Engineer if any parts of the tanks, pods, or other system components are installed in a seasonal high water table. Additional ballast may be required. 21. Influent samples shall be taken from the inlet sanitary tee into the recirculation tank. Effluent samples shall be taken from the final pump doing tank or a spigot or sampling port that is placed on the force main from the final dosing tank. B. E-Z Treat Pretreatment systems shall be designed by a designer authorized in writing by E-Z Treat Company or a NC Professional Engineer. Systems over 1,000 gallons per day shall be designed by a NC Professional Engineer. IWWS-2015-03-R2 January 6, 2017 Page 5 of 10 VII. Installation and Testing A. A preconstruction conference shall be required to be attended by the designer authorized in writing by E-Z Treat Company, engineer (if applicable), installer authorized in writing by E-Z Treat Company, and L14D prior to beginning construction of the E-Z Treat Pretreatment system. B. All E-Z Treat Pretreatment systems shall be installed according to directions provided by E-Z Treat Company. Additionally, all E-Z Treat Pretreatment systems and components used with, but not manufactured by E-Z Treat Company shall be installed in accordance with all applicable regulations and manufacturer instructions. C. All individuals/companies installing E-Z Treat Pretreatment systems shall be in possession of all necessary permits and licenses before attempting any portion of a new or repair installation. The company/individual must be a Level IV installer and authorized in writing by E-Z Treat Company. D. Watertightness of the tanks shall be tested by either of the following protocols: 24-hour hydrostatic test or a vacuum test. 1. Hydrostatic Test1, 2 a. Temporarily seal the inlet and outlet pipes. b. Fill tank with clean water to a point at least two inches above the pipe connections or the seam between the tank and the riser, whichever is highest. c. Measure the water level. d. Allow the tank to sit for 24 hours. e. Re -measure the water level. f. If the water level change is th-inch or less or one percent of the liquid tank capacity, the tank passes the leak test. g. If the water level change is greater than th-inch, any visible leaks can be repaired and the tank may be topped off with water and allowed to sit for a minimum of one hour. h. The tank passes the leak test if there are no visible leaks (flowing water or dripping in a steady stream) and no measureable drop in water level after one hour. Otherwise, the tank fails the leak test. 2. Vacuum Testa a. Temporarily seal the inlet and outlet pipes. b. A vacuum of four (4) inches of mercury should be pulled on the tank and held for five (5) minutes. c. During the testing, the tank manufacturer or their representative can seal the tank if it is found to be leaking. d. If the tank is repaired, the vacuum must be brought back up to four inches and held for five minutes. E. The distribution of flow to the E-Z Treat Pretreatment system and to the septic tank shall be measured during start-up and set to be in accordance with the system design with start-up settings recorded. t Victor D'Arnato and Ishwar Devkota, Development of Prefabricated Septic and Pump Tank Construction and Installation Standards for North Carolina. 2 National Precast Concrete Association, Best Practices Manual Precast Concrete On -Site Wastewater Tanks, Second Edition, October 2005, 24. s National Precast Concrete Association, Best Practices Manual Precast Concrete On -Site Wastewater Tanks, Second Edition, October 2005, 24. IWWS-2015-03-R2 January 6, 2017 Page 6 of 10 F. Specified site preparation steps and construction specifications for the ground absorption system shall be strictly adhered to, including specified depth of trenches in relation to site limiting conditions, cover material specifications (if needed), trench installation method, etc. G. The installer authorized in writing by E-Z Treat Company, the engineer or designer authorized in writing by E-Z Treat Company, and the ORC authorized in writing by E-Z Treat Company shall conduct an inspection/start-up of the E-Z Treat Pretreatment system and all associated system components. The L14D personnel will attend and observe the inspection/start-up. During the inspection/start-up to include: 1. System watertightness testing. 2. Control panel operation and alarm settings. 3. Pump model numbers and time clock settings. 4. Pressure head on the E-Z Treat pod wastewater distribution system. 5. Return flow to the septic tank set per design and recorded, when applicable. 6. Riser hatches have tamperproof bolts, and/or riser lock ring. VHL Operation, Maintenance, Monitoring, and Reporting A. E-Z Treat Pretreatment systems shall be classified, at a minimum, as a Type Va system in accordance with Table V(a) of Rule .1961(b). Management and inspection shall be in accordance with Rules .1961 and .1970. B. All E-Z Treat Pretreatment systems require an operation and maintenance agreement between the system owner and E-Z Treat Company, Inc., its authorized representative, or with an operator authorized in writing by E-Z Treat Company as per Rule .1970. The system shall be inspected according to Rule .1961 by a certified subsurface operator authorized in writing by E-Z Treat Company according. The ORC shall be either an employee of E-Z Treat Company or authorized in writing by E-Z Treat Company to operate and maintain the system. The operator authorized in writing by E-Z Treat Company must have proper equipment and training to access and program the control panels on site. C. All E-Z Treat Pretreatment systems shall be operated and maintained according to the latest version of E-Z Treat Company's O&M manual. D. At each E-Z Treat Pretreatment system inspection the ORC authorized in writing by E-Z Treat Company shall, at a minimum, observe, monitor, and record the following: 1. Wastewater level in all the tanks. 2. Sludge, scum, and grease levels in all the tanks. 3. Clogging of effluent filter. 4. Watertightness of tanks, risers, and pipe penetrations at the tanks. 5. Operation of pumps, floats, valves, electrical controls, and alarms. 6. Drainfield pump delivery rate (drawdown test), determination of the average pump run time, and drainfield dosing volume. 7. Any structural damage, accessibility issues, adequate ventilation, excess odors, ponding of effluent, insect infestations, vegetative growth over the drainfield, or surfacing of effluent on the drainfield area. 8. Sample of E-Z Treat Pretreatment system effluent collected from the sampling point to check for effluent clarity and odor and a sample of influent, as required. IWWS-2015-03-R2 January 6, 2017 Page 7 of 10 9. Readings from pump cycle counters and run time meters and any water meter readings, as applicable. 10. Current operational set up for TS-II nitrogen removal enhancement (percent returned to septic tank), and recommendation for modifications (if needed). 11. System operating conditions, from the review stored data for indication of 7-day and 30-day flows and flow variances or other abnormal conditions. E. The ORC authorized in writing by E-Z Treat Company shall also conduct other additional observations, measurements, monitoring, and maintenances activities as specified in the Operation Permit and as recommended by the manufacturer. F. Sampling and Testing 1. All sampling shall be done in accordance with Rule .1970(n)(3) and (5). E-Z Treat systems shall be sampled annually (semi-annually for systems with a design flow of 1,501 to 3,000 gpd). 2. TS-II systems influent shall be analyzed for TKN. 3. Effluent for all systems shall be tested for effluent CBOD5 and NH4-N. Systems specified to meet the TS-II standard shall also have the effluent analyzed for TN (TKN and NO3-N). Systems designed to meet the TS-II standard with design flows of 1,501 gpd to 3,000 gpd shall have the effluent analyzed for fecal coliforms. 4. Additional sampling of effluent or influent may be determined to be necessary by the ORC authorized in writing by E-Z Treat Company during a system inspection to assist with troubleshooting or to verify system performance. 5. Effluent samples shall be taken from the final dosing tank/chamber or a sampling port located downstream from the final treatment process. 6. Influent samples shall be taken from a sampling port located between the septic tank and recirculation tank/chamber. 7. Adjustments in the monitoring schedule and number of parameters sampled may be proposed by E-Z Treat Company and approved by the Department pursuant to Rule .1970(n)(3)(B) or (C). G. Notification and Performance of Maintenance and Repairs 1. The ORC authorized in writing by E-Z Treat Company shall alert E-Z Treat Company, the LHD, and the system owner within 48 hours of needed maintenance or repair activities including but not limited to landscaping, tank sealing, tank pumping, pipe or control system repairs, media replacement, and/or adjustments to any other system component. 2. System troubleshooting and needed maintenance shall be provided to maintain the pump delivery rate and average pump run time within 25% of initial measurements conducted during system startup. The ORC authorized in writing by E-Z Treat Company shall notify the system owner, E-Z Treat Company, and the LHD whenever the pump delivery rate efficiency or average pump ran times are not within 25% of initial measurements conducted prior to system start-up. 3. The septic tank will be pumped as needed upon recommendation of the ORC authorized in writing by E-Z Treat Company and in accordance with the E-Z Treat Pretreatment system operation and maintenance instructions. However, at a minimum, the septic tank will be pumped whenever the solids level exceeds 25% of the tank's total liquid working capacity or the scum layer is more than four inches thick. 4. The tanks shall be pumped by a properly permitted septage management firm, and the septage handled in accordance with 15A NCAC 13B .0800. 5. The ORC authorized in writing by E-Z Treat Company shall notify the LHD, E-Z Treat IWWS-2015-03-R2 January 6, 2017 Page 8 of 10 Company, and the system owner in writing whenever repairs are indicated. All maintenance activities shall be recorded in the ORC reports provided to the system owner, LHD, and E-Z Treat Company. H. Reporting 1. The ORC authorized in writing by E-Z Treat Company shall provide a completed written report to the system owner, E-Z Treat Company, and the LHD within 30 days of each inspection. At a minimum this report shall specify: a. The date and time of inspection, b. System operating conditions according to Section VII.D, VII.E, and VII.F. c. Results from any laboratory analysis of any influent and effluent samples, d. Maintenance activities performed since the last inspection report, e. An assessment of overall system performance, f. A list of any improvements or maintenance needed, g. A determination of whether the system is malfunctioning, and the specific nature of the malfunction, h. Any changes made in system settings, based on recommendations of the manufacturer, and i. A summary report of data retrieved from the control panel verifying actual daily, 7-day, and 30-day flows, flow variances, and other operating conditions. IX. Responsibilities and Permitting Procedures A. Prior to the installation of an E-Z Treat Pretreatment system at a site, the owner or owner's agent shall file an application at the LHD for the proposed use of this system. After the LHD conducts a soil and site evaluation, the LHD may issue an Improvement Permit or Authorization to Construct or amend a previously issued Authorization to Construct allowing for the use of a E-Z Treat Pretreatment system. B. The Improvement Permit and Authorization to Construct shall contain all conditions the site approval is based upon, including the proposed used of the Innovative system. The Operation Permit will include all conditions specified in the Improvement Permit and the Authorization to Construct. C. When a special site evaluation is required pursuant to Rule .1970(p)(1) or a drip approval, as applicable, an evaluation and written, sealed report from a Licensed Soil Scientist regarding the site shall be provided to the LHD. The report shall contain the information as specified in Rule .1970(p)(2) and "Requirements for Submittals of Soil Reports and Pretreatment and/or Dispersal System Designs". The LHD may request the assistance of their Regional Soil Scientist in evaluating this report prior to permit issuance. D. The E-Z Treat Pretreatment system shall be designed by one of the following: a designer authorized in writing by E-Z Treat Company or a North Carolina Professional Engineer. Systems over 1,000 gallons per day, or as otherwise required for drip irrigation systems, shall be designed by a North Carolina Professional Engineer. E. Prior to issuance of an Authorization to Construct for an E-Z Treat Pretreatment system, a design submittal prepared by a designer authorized in writing by E-Z Treat Company or a North Carolina Professional Engineer shall be submitted for review and approval by the LHD. The IWWS-2015-03-R2 January 6, 2017 Page 9 of 10 design submittal shall include the information required in "Requirements for Submittals of Soil Reports and Pretreatment and/or Dispersal System Designs". F. It is recommended that local authorized environmental health practitioners attend a design training session offered by the manufacturer/authorized representative prior to permitting the system. Also, at the request of the LHD, a Regional Engineer will review the design. G. The designer authorized in writing by E-Z Treat Company shall certify in writing that the E-Z Treat Pretreatment system was installed in accordance with the approved design prior to Operation Permit issuance. H. A North Carolina Professional Engineer shall certify in writing that a system designed by an engineer was installed in accordance with the approved plans and specifications prior to Operation Permit issuance. I. For sites required to be evaluated by a Licensed Soil Scientist or Professional Geologist (see Section V and IX.C), the health department may specify as a condition on the Improvement Permit and Authorization to Construct that a Licensed Soil Scientist or Professional Geologist oversee critical phases of the drainfield installation and certify in writing that the installation was in accordance with their specified site/installation requirements prior to the Operation Permit issuance. J. The ORC authorized in writing by E-Z Treat Company shall be present during the final inspection of the system prior to the issuance of the operation permit. The ORC shall be certified as a NC Subsurface Operator and authorized in writing by E-Z Treat Company. K. The LHD issues the Operation Permit after the following: 1. Field verification of installation completion; 2. Receipt of written documentation from the designer authorized in writing by E-Z Treat Company or the engineer, as applicable, that the system has been designed, installed, and is operating in accordance with the approved plans; and 3. All necessary legal documents have been completed, including the contract between the system owner and the ORC authorized in writing by E-Z Treat Company. K. On an annual basis, E-Z Treat Company shall provide a report to the On -Site Water Protection Branch including the number and location of new system installations during the previous year, and effluent data and operator reports for each operational E-Z Treat Pretreatment system installed in North Carolina under this Innovative Approval. Effluent data should be compiled and submitted electronically. If available, a web -based system for data posting of laboratory results should be utilized. These reports shall provide information to the Department based upon the monitoring data and observations made from the Innovative systems installed pursuant to this Approval. This should include an assessment of system performance in relation to the established treatment performance standards; an assessment of physical and chemical properties of the materials used to construct the system, in terms of strength, durability, and chemical resistance to loads and conditions experienced, recommended areas of applicability for the system; and any conditions and limitations related to the use of the system. The report shall also include an updated list of authorized designers, installers, and ORCs. X. Repair of Systems IWWS-2015-03-R2 January 6, 2017 Page 10 of 10 The provisions of 15A NCAC 18A .1961(1) shall govern the use of the E-Z Treat Pretreatment System for repairs to existing malfunctioning wastewater systems. Approved By: _ Date: �4C� 00 C c v a .�00 00 00 �o 0o U a� A U Q U 0 F- U c r1 0. 0 NSF International OFFICIAL LISTING NSF International Certifies that the products appearing on this Listing conform to the requirements of NSF/ANSI Standard 245 - Wastewater Treatment Systems - Nitrogen Reduction This is the Official Listing recorded on December 1B, 2015, E-Z Treat P.O. Box 176 Haymarket, VA 20618 703-753-4770 Facility: Rocky Mount, NC Model Number #600 #1200 Rated Capacity Gallon /Day 600 1200 Note; Additions shall not be made to thin document without prior evaluation and acceptance by NSF International. 1 of 1 789 N. Dixbaro Road. Ann Arbor. Michigan 4f;105-9733 USAC0173848 1-800-NSF-MARK 11 734-769-8010 www.tisf.org XSF NSF International OFFICIAL LISTING NSF International Certifies that the products appearing on this Listing conform to the requirements of NSF/ANSI Standard 350 - Onsite Residential and Commercial Water Reuse Treatment Systems This is the Official Listing recorded on December 18, 2015. 9-Z Treat P.O. Box 176 Haymarket, VA 20618 703-753-4770 Facility: Rocky Mount, NC Rated Capacity Model Number Gallons/Day Classification Type #600 600 Class R Wastewater #1200 1200 Class R Wastewater NOTE: Class R - Single family residential dwellings Note: Additions shall not be made to this document without prior evaluation and acceptance by NSF International. 1 of 1 789 N. Dixboro Road. Ann Arbor. Michigfln 451 OS-9?33 USA c0173848 1-800-NSF-M aRK / 734-769-8010 wti«v.nst arg ((%) CAST -A -SEAL 402/402F Submittal Specification A flexible pipe-io-structure connector shall be employed in the connection of the sanitary sewer pipe to precast structures. The connector shall be CAST A -SEAL® 402/402F as manufactured by Press -Seal Corporation, Fort Wayne, Indiana, or approved equal. The connector shall be the sole element relied on to assure a flexible, watertight seal of the pipe to the precast structure. The connector shall consist of a rubber gasket and an external take-up clamp. The rubber gasket element shall be constructed solely of syn- PRODUCT SPECIFICATION and SELECTION torque -setting wrench available from the connector manufacturer. Selection of the proper size connector for the structure and pipe requirement, and installation thereof, shall be in strict conformance with the recommendations of the connector manufacturer. Any dead end pipe stubs installed in connectors shall be restrained from movement per ASTM C 923. The finished connection shall provide sealing to 13 psi (mini- mum) and shall accommodate deflection of the pipe to 7 degrees (mini- mum) without loss of seal. theft or natural rubber, and shall meet or exceed the physical property Vacuum testing shall be conducted in strict conformance with requirements of ASTM C 923. ASTM C 1244 prior to backfill. Other testing shall be conducted in strict The external take-up clamp shall be constructed of Series 300 conformance with the requirements of the connector manufacturer. non-magnetic stainless steel and shall utilize no welds in its construc- tion. The clamp shall be installed by torquing the adjusting screw using a CAST-A-SEAL402 PIPE SIZE PIPE O.D. RANGE WALLTHICKNESs• APPLICATION 452.0250 1.25' - 2" (31 - 51 mm) 1.5" - 2.75" (38 - 70 mm) 2.5' - 6" (64 -ISO MM) STANDARD 44? i `- Ur ilireT ;: is mm) 2..$ " (54 -:t50. ", - .. STR/rf3AR[3 '.. 452.0402F1 4" (100 mm) 4.2" - 4.7" (107 - 119 mm) 2.5" - 4.0" (64 - 102 mm) Closed Face (14¢ rrrnl) 6'2' - 6.7"057 ; T7.0:mm) 2.5'- 6" (64 -.YStJ mrrr} S<Ti W DARD CAS ADAPTER 3" (75 mm) 3.2" - 3.6' (81 - 91 mm) Use with 4" CAST -A -SEAL PRODUCT PERFORMANCE CAST-A-SEAL4021402F meets and/or exceeds all requirements of ASTM C 923, including physical prop- erties of materials and performance testing, including: • 13 psi minimum in straight alignment • 10 psi at minimum 7'angle • 10 psi minimum under shear load of 150 Ibs/in. pipe diameter CAST -A -SEAL 402/402F meets and/or exceeds the requirements of the following Standards, Specifica- tions, Codes, and Test Methods: • ASTM C 923 Standard Specification for Resilient Connectors Between Reinforced Concrete Manhole Structures, Pipes, and Laterals • ASTM C 1644 Standard Specification fnr Resilient Connectors Between Reinforced Concrete On -Site Wastewater Tanks and Pipes ASTM C 1478 Standard Specification for Storm Drain Resilient Connectors Between Reinforced Concrete Storm Sewer Structures, Pipes and Laterals ASTM C 1244 Standard Test Method for Concrete Sewer Manholes by the Negative Air Pressure (Vacuum) Test IAPMO/ANSI Z1000 Standard for Prefabricated Septic Tanks IAPMO/ANSI Zt 001 Standard for Prefabricated Gravity Grease Interceptors • NPCA Best Practices Manual for Precast Concrete On -Site Wastewater Tanks • NOWRA Model Code Framework TYPICAL TEST RESULTS for CAST -A -SEAL 4021402F (as in ASTM C 1644, C 923. and C 1478) Test ASTM Test Method Test Requirements Typical Result CHEMICAL RESIS- NO WEIGHT TANCE; 1N SULFURIC D 534, AT 22-C FOR NO WEIGHT LOSS LOSS ACID and 1N 48 HRS NO WEIGHT LOSS NO WEIGHT HYDROCHLORIC ACID LOSS TENSILE STRENGTH ❑ 412 1200 PSI, MIN, 2100 PSI M50AMON AT RRFAK D 412 350%, MIN. 525% D 2240 (SHORE A *-5 FROM THE HARDNESS DUROMETER) MANUFACTURER'S <2 SPECIFIED HARDNESS DECREASE OF 15%, ACCELERATED D 7 1°G MAX. OF ORIGINAL 13%TENSILE CHANGE, -14%ELONGATION OVEN -AGING 7 DAYS FOR OR D ENSILE STRENGTH, DE- CREASE OF 20%, MAX. OF ELONGATION CHANGE D 395, METHOD B, DECREASE OF 25%, COMPRESSION TEST AT 70°G FOR 22 HRS MAX. OF ORIGINAL DE- 13% FLECTI ON D 471 IMMERSE 0.75 INCREASE OF 10%, ABSORPTION BY 2-IN.SPECIMEN N DISTILLED WATER MAX.ATER ORIGINAL 3.50% AT 70'C FOR 48 hrs WEIGHT OZONE RESISTANCE D 1171 RATING 0 PASS LOW -TEMP, BRITTLE POINT D 746 NO FRACTURE AT-4o°C PASS TEAR RESISTANCE D 624, METHOD B 200 LBFAN. (MIN.) 450 LBFlIN. Press -seal believes all information is accurate as of its publication data:. Information, specifications, and prices are all subject to change without notice. Press -Seal is not responsible for any inadvertent errors. Copyright 2012. 63 Phone: 0) 436 1908 PRESS -SEAL CORPORATION Email: sales@press-seal.com Fax (260} 435-1908 Protecting Our Planet's Clean Water Supply Web: www.press-seal.com rra vaar:armg eesraerNr • rsnvrse nnas.r�.�feer H CAST -A -SEAL 4021402F What It Is CAST -A -SEAL 4021402F is a watertight flexible connector that is cast into the structure when the concrete is poured. The connector is folded into the casting position and placed on the reusable heavy-duty solid plastic mandrel that is installed directly to the form. After the concrete is cured, the form is opened, removing the mandrel from the gasket, but leaving the CAST -A -SEAL 4021402F connector embedded in the concrete. The gasket is then simply unfolded at thejobsite and is tightened around the pipe using the sup- plied stainless steel take-up clamp. Why It's Better • Simple cast -in design provides flexible watertight connection. * Eliminates infiltration and exfiltration_ * Improves on -site system performance and minimizes maintenance. • Protects groundwater from unintended discharges. • Use in on -site treatment structures, grease interceptors, manholes, wet wells, pump and lift stations, stormwater structures, or any application requiring a flexible watertight connector. CAST -IN BOOT -TYPE CONNECTOR for 1-1/4" to 6"PVC Pipe (32 mm - 150 mm) -low It Performs CAST -A -SEAL 402(402F meets or exceeds all requirements of the following Standards, Codes, Specifications and/or Test Methods: ASTM C 1227 IAPMO Z1000 ASTM C 1644 1APM0 Z1001 ASTM C 923 NPCA Best Practices ASTM C 1244 NOWRA Model Code ASTM C 1478 Scan (or click) Here To View More Info On This Product On The Web! " y rd T f 'I Attach mandrel Invert gasket Place gasket Strip form and Invert gasket to outside to outside form into casting and mandrel in mandrel, leaving of tank, insert pipe and wall. position. form and pour. gasket in place. tighten take-up clamp. Press -Seal believes all information is accurate as of its publication date. Information, specifications, and prices are ali subject to change without notice- Press -Seal is not responsible for any inadvertent errors. Copyright 2012. Phone:800-348-7325 Fax: (260) 436-1908 62 PRESS -SEAL CORPORATION Protecting Our Planet's Clean Water Supply ISO 900J.2008RM deml • INWEC 17025Acrmdi&d Email: sales@press-seal.com Web: www.press-seal.com rs� = E set by INFILTRATOR EZset by Infiltrator risers and lids are made from glass reinforced polypropylene, providing superior strength and durability. They come in green or black and in 20", 24", and 30" diameters making them ideal for use with any concrete or plastic tank. The slip resistant lids are fastened using stainless steel screws and can be further secured by installing locking rings. 20" Riser System ■ 20" x 6" Risers (Green or Black) ■ 20" x 12" Risers (Green or Black) ■ 20" Lids (Green or Black) 20" x 6" Riser 20" x 12" Riser 24" Riser System ■ 24" x 6" Risers (Green or Black) ■ 24" x 12" Risers (Green or Black) ■ 24" x 18" Risers (Green or Black) ■ 24" Lids (Green or Black) Ell 1 24" x 6" Riser el 24" x 12" Riser 24" x 18" Riser Adapter Flange 24" Lid 30" Riser System 30" x 12" Risers (Green or Black) 30" Lids (Green or Black) 30" x 12" Riser 30" Lid - Adhesive Sealant - 20" Locking Rings - 20" Safety Pans - 24" Locking Rings - 24" Safety Pans - 24" Adapter Rings - 30" Locking Rings CDEZset .125 TYP. WALL THICKNESS 125 TYP. WALLTHICKNESS 125 TYP. WALLTHICKNESS by INFILTRATOR 20" x 6" Riser Cutaway 26" 24" l 121 6.05" SECTION A -A SCALE 1 : 6 26.375" 24" x 6" Riser Cutaway 24" x 18" Riser Cutaway INFILTRATOR WATER TECHNOLOGIES, LLC ("Infiltrator") EZset by Infiltrator LIMITED WARRANTY ONE (1) YEAR MATERIALS AND WORKMANSHIP LIMITED WARRANTY (a) This limited warranty is extended to the end user of an EZset by Infiltrator riser and lid system and other accessories. An EZset system manufactured by Infiltrator, when installed and operated in accordance with Infiltrator's installation instructions and local regulation by a licensed installer, is warranted to you: (i) against defective materials and workmanship for one (1) years after installation. Infiltrator will, at its option, (i) repair the defective product or (ii) replace the defective materials. Infiltrator's liability specifically excludes the cost of removal and/or installation of the EZset system. (b) In order to exercise its warranty rights, you must notify Infiltrator in writing at its corporate headquarters in Old Saybrook, Connecticut within fifteen If 5) days of the alleged defect. (c) YOUR EXCLUSIVE REMEDY WITH RESPECT TO ANY AND ALL LOSSES OR DAMAGES RESULTING FROM ANY CAUSE WHATSOEVER SHALL BE SPECIFIED IN SUBPARAGRAPH (a) ABOVE. INFILTRATOR SHALL IN NO EVENT BE LIABLE FOR ANY CONSEQUENTIAL OR INCIDENTAL DAMAGES OF ANY KIND, HOWEVER OCCASIONED, WHETHER BY NEGLIGENCE OR OTHERWISE. SOME STATES DO NOT ALLOW THE EXCLUSION OR LIMITATION OF INCIDENTAL OR CONSEQUENTIAL DAMAGES, SO THIS LIMITATION OR EXCLUSION MAY NOT APPLY TO YOU. THIS WARRANTY GIVES YOU SPECIFIC LEGAL RIGHTS AND YOU MAY ALSO HAVE OTHER RIGHTS WHICH VARY FROM STATE TO STATE. q��_ INFILTRATOR® systems inc. 4 Business Park Road P.O. Box 768 Old Saybrook, CT 06475 860-577-7000•Fax 860-577-7001 1-800-221-4436 www.infiltratorwater.com .125 TYP. WALL THICKNESS 12.05' L .125 TYP. WALL THICKNESS 125 TYP. WALLTHICKNESS Riser Specifications 22° 20" x 12" Riser Cutaway 24" x 12" Riser Cutaway 30" x 12" Riser Cutaway (d) THIS LIMITED WARRANTY IS THE EXCLUSIVE WARRANTY GIVEN BY INFILTRATOR AND SUPERSEDES ANY PRIOR, CONTRARY, ADDITIONAL, OR SUBSEQUENT REPRESENTATIONS, WHETHER ORAL OR WRITTEN. INFILTRATOR DISCLAIMS AND EXCLUDES TO THE GREATEST EXTENT ALLOWED BYLAW ALL OTHER WARRANTIES, WHETHER EXPRESS OR IMPLIED, OR STATUTORY, INCLUDING ANY WARRANTY OF MERCHANTABILITY, FINESSE FOR A PARTICULAR PURPOSE AND ANY IMPLIED WARRANTIES OTHERWISE ARISING FROM COURSE OF DEALING, COURSE OF PERFORMANCE, OR USAGE OFTRADE. NO PERSON (INCLUDING ANY EMPLOYEE, AGENT, DEALER, OR REPRESENTATIVE) IS AUTHORIZED TO MAKE ANY REPRESENTATION OR WARRANTY CONCERNING THIS PRODUCT, EXCEPT TO REFER YOU TO THIS LIMITED WARRANTY. EXCEPT AS EXPRESSLY SET FORTH HEREIN, THIS WARRANTY IS NOT A WARRANTY OF FUTURE PERFORMANCE, BUT ONLYA WARRANTY TO REPAIR OR REPLACE. (a)YOU MAYASSIGN THIS LIMITED WARRANTY TO A SUBSEQUENT PURCHASER OFYOUR HOME. IF) NO REPRESENTATIVE OF INFILTRATOR HAS THE AUTHORITY TO CHANGE THIS LIMITED WARRANTY IN ANY MANNER WHATSOEVER, OR TO EXTEND THIS LIMITED WARRANTY. CONDITIONS AND EXCLUSIONS There are certain conditions or applications over which Infiltrator has no control. Defects or problems as a result of such conditions or applications are not the responsibility of Infiltrator and are NOT covered under this warranty. They include failure to install the EZset system in accordance with instructions or applicable regulatory requirements or guidance, altering the EZset system contrary to the installation instructions and disposing of chemicals or other materials contrary to normal EZset system usage. The above represents the Standard Limited Warranty offered by Infiltrator. A limited number of states and counties have different warranty requirements. Any purchaser of an EZset system should contact Infiltrator's corporate headquarters in Old Saybrook, Connecticut, prior to such purchase to obtain a copy of the applicable warranty, and should carefully read that warranty prior to the purchase of an EZset system. U.S. Patents: 4,759,661; 5,017,041; 5,156,488; 5,336,017; 5,401,116; 5,401,459; 5,511,903; 5,716,163; 5,588,778; 5,839,844 Canadian Patents: 1,329,959; 2,004,564 Other patents pending. Infiltrator, Equalizer, Quick4, and SideWinder are registered trademarks of Infiltrator Water Technologies. Infiltrator is a registered trademark in France. Infiltrator Water Technologies, is a registered trademark in Mexico. Contour, MicroLeaching, PolyTuff, ChamberSpacer, MultiPort, PosiLock, QuickCut, QuickPlay, SnapLock and StraightLock are trademarks of Infiltrator Water Technologies. PolyLok is a trademark of PolyLok, Inc. TUF-TITE is a registered trademark of TUF-TITE, INC. Ultra -Rib is a trademark of IPEX Inc. © 2013 Infiltrator Water Technologies, LLC. All rights reserved. Printed in U.S.A. SET01 0613ISI W� I MW Toll Free: 888-999-3290 Bristle Filter Instructions For STF-110 4" (Installation &Maintenance) Instructions for installation in standard 4" outlet "Tee" of seDtic tank. • Orient the filter so that the wire handle faces opposite the discharge outlet. • Push filter into top of "Tee" until the 90 degree wire handle touches the top of the "Tee". The filter is now "installed", as shown in the picture to the right. • The flexibility of the STF-110 bristle filter allows it to be used in just about any situa- tion. If you need help with a custom installation please call Sim/Tech Filter toll free at 888-999-3290. Installed Filter Recommended maintenance schedule For maximum protection, it is recommended that the filter be replaced annually. If not, it should be inspected at least once per year. The filter is capable of lasting three years under normal conditions. Such factors as garbage disposals, pets, laundry, etc. may cause the need for more frequent inspection or service. Instructions for performing maintenance in standard 4" outlet "Tee" of septic tank. STF-130 Maintenance Sleeve • Before removing filter, one of two options must be performed. These options need to be performed to prevent any outflow of unfiltered effluent from the tank while the filter is removed. Option 1 Insert a STF-130 maintenance sleeve (sold separately) with the handle coupling on the same side of the "Tee" as the outlet hole. Push the sleeve into the "Tee" until the handle coupling hits the top of the "Tee". Do not remove the sleeve until a filter has been put back in the "Tee". Option 2 Have the tank pumped down by a professional septic service company. • After performing one of the options above, remove filter by pulling up on the filter handle. • Place the used filter in the provided plastic bag for proper disposal. • Install a new replacement filter as described in the installation instructions at the top of the page. • If a maintenance sleeve was used (option 1), remove the sleeve from the outlet "Tee" Maintenance Sleeve partially inserted into "Tee" U.S. Patent # 6,811,692 T STF?"'0-7R4' "dia. M r The STF=1111 seriesrteq Effluent Fil, ro It's Superior 5uperiar to slatted, uniform designs. Flexible b -sa tilo - r e-side" Lial .; i . Y r m r■. a w� r 4w r I. 0 0 19F The Boqit V I 4ew p —mIzFoSt -ommon dpbris. M! P. - Up N-- cr It's Simple only rhaire in effluent filers. =01 9 1 F L*F�z7f/�LJ ERT STF-110-7R is 4%6" sanitary Tee(cut-a-way) i itratiun of the most common solids t=ound in today's wastewater systems • I/er4-*atFi-_ dk_-.A-wiyrr has appllieations for residential, commercial and industrial systems and fit many different types of tees and housings * Flexible brhvtla-dmory►s is simple to iristal'l and service. even in rmystems vvith limited • 5elt-h3rhfng hrisirfes hold tlhe filter firmly in plate with no need for receivers or canisters and eliminate filter float -up qMm" • Hc-hris so-paratinrr area naturally sorts sollds according to size and mass for longer filter life • Allarvsi sbFufuyicaf maturhW trrscessary in vvaf% pwvatew trE atr"2"t sly. $tens& * Durable enough to be eserviced and economical enough to he replaced • Fr r<ra# -6afutloen for protecting and servicing all types of wastewater systems at a fraction OF the cast of inferior designs Designers after our proven TF-11 D effluent filter that currently protects residential septic systems all over the world, the latest additions to this series of filters were designed with more demanding residential, commercial and industrial systems with larger housings and pre -cast tanks with built in square baffles in mind - We achieve superior fiItralion of the most comrnan solids found in today's wastewater systems with our non -uniform bristle design. This design is much more efficient than uniform I slotted designs which can pass larger more harmful debris into the system. The flexible self-locking bristles make it simple to install and service, even in systems with limited access. They also hold the filter firmly in place with no need for receivers or can.Wer,5 and eliminate filter float -up. The filters employs a debris separation space which naturally sorts solids according to size and mass. This makes the filter function more efficiently and greatly increases its life -span.. It also allows for biological maturing which is necessary in all wastewater treatment systems. The TF-110 series frlters use triangular polypropylene bristles wound together with a 316 stainless -steel ware. This makes them durable enough to be serviced and economical enough to be replaced. This provides an economical solution for protecting and servicing all types of wastewater systems at a fraction of the cost of interior desiga ns. STF-Tla-M in pre -oast sTf-i3o changing sJaeve fs requored A black elVierarrt flow white seFviciR9 -010 -r?k wrfh square without the need to pump down the tarrk. befffe. — 40 STF-? 10 in 4' sanitary Yea (cut -a -way view) For- thie protiectij7n amid pierfar-niarm- a olf tvasretvatier mAjHr ems bet vvVVV"..gat- :;,tech. 0gMr. US Patent # 6, 8f 1, 692 septic tank brie FEATURES r 4 " Y0110 Easy, affordable solution for servicing septic tanks *: Designed with non -directional bristles for unrestricted flow of effluent :* Allows biological maturing and sloughing to rraxirrize septic tank efficiency Provides well over' 2 mile of filtration media with over 319 cu. in. of open area to eliminate clogging + 2,215 sq. i n . of filtering surface allow a flow rate of over 1200 GPD, filtering to 1/1 " diam t er + Filtering surface is achieved with unique triangular bristle that .more than doubles the filtering surface, with no uniform holes or slots to plug *:' 0 degree handle for easy installation and removal *: Adapts to all types of 4 plipe *:p elf -locking bristles hold the filter firmly in place, eliminating `filter float up' we� Flexible design makes it easy to install in hard to reach places and makes replacing the filter a breeze *: Constructed of polypropylene bristles, wound together with a 316 S.S. core :• The filters designed shape creates a debris separation space which naturally sorts debris according to size and mass, ensures even filter usage for a long lifespan and maximizes circular flow Order part No. TF-11 0 TF-1 30 CAD detail drawing available in D F format RELATED PRODUCTS STF-110-6VV page 4 TF-110-7R page 4 TF-110-813 page 4 TF-1 30 page 14 TF-4TEE page 14 1,.1__ Patent 9 6, 811. 692 W, MWMWI owl] w.01 Li PAGE 3 Toll Free 888-999-3290 Office 1-58 -10 0 Fax 231-582-7324 Email sirntech free ay_not Web www.ga,g-simtech.corn 8 GARY IB. JOHNSON MICHIGAN # 32831 WISCONSIN # E-25985 MINNESOTA # 41217 SIM/TECH FILTER NEW STF-I 10 DISPOSABLE SEPTIC TANK FILTER TURD PARTY VERIFICATION The Disposable Septic Tank Filter is constructed as a twisted -in -wire brush with 26" long brush body, V4" tip and 2 1/4" long handle end with 90 degree bend- Brush body will have a major diameter of 4.313" for a length of 9 1/2" starting V2" from the 90 degree handle bend, then will transition down to 3 Y2" diameter over the next 2 %2" and held at 3 '/2" diarnetter,for the next 14". There will be a scallop cut into the O.D. in the major diameter beginning 2 1/2" from the top, transitioning down to 3 !,T' over the. next 2", and then transitioning up to the major diameter over the next 2". The stem will be 11 -gauge stainless steel and the fill material will be .012 yellow polypropylene - The filter has a total of 2,962 lineal feet of bristle equaling 35,544 lineal inches of bristle. By calculating the total length x the total perimeter of SiniffecWs uniquely shaped bristle, it gives us a filtering surface of 2,215 square inches. GARY B. N EER 3 a] 0 F l Volume of a Arx26" Septic Tee Volume of the STF- I 10 Filter Volume as open for fluid 326.7 cubic inches 4.265 cubic inches 322.435 cubic inches 8 TtURD PARTY VERIFICATION OF FILTRATION ON TBE STF- 110 AND THREE OT MR GRAVITY SEPTIC TANK, FILTERS • Test was checking for filtering qualities with particulate that could be found in septic tank effluent • This test used five types of particulate added to a clean tank • The five types of particulate were hair, seeds, tissue paper, lint, and chain saw chips (see table A below) • Test tank was riled manually every five minutes while performing tests to represent a large influx of water Water was introduced into the test tank, at 210 gallons per hour • Test was run to a 2" head height above outlet flow • Recorded length of time to achieve a 2" head height (see table B below) • Recorded what was caught in a 1500 micron sieve during the total run time (see table B below) • Recorded what was caught in a 600 micron sieve below the 1500 micron sieve during total run time (see table B below" • Recorded particulate caught while changing filters 15 minutes after ending test using manufacturers recommended instructions (see table B below) • Recorded particulate removed with filters themselves (all filters were removed slowly) (see table B below) • All part ' iculate was recorded in grams using a OHAUS Scout 11 Scale (Serial #BJ380398) with capacity 400 times 0.1 g (purchased scale 11/1710111 ) Human hair 2 Horse hair 2 Dog hair I Cat hair I Tomato seeds 2 Pepper seeds 2 Cucumber seeds 2 Dill seeds 2 Charmin tissue paper 2 Scott tissue paper 2 Northern tissue paper 2 Lint 2 Chainsaw chips 4 TABLE B Sim/Tech Tuff-Tite Zabel ner Zoeller Zoeller Time to achieve 2" head height I hr. 40 min. 7 min- 6 min. 2 Particulate caughl in 1500 micron sieve 0 0 0 0 0 Particulate caught in 600 micron sieve 0 0.2 0.3 1.2 Particulate caught while changing filter 0 0.3 1 0 0 Particulate contained within 6.3 2.2 2.3 *Ended test at 2 hours, total head height was at 1 3/41, Note: All filters except Sim/Tech caught seeds in 1500 micron sieve but was not recordable in 1/10a scale ?-1 • Test done with clean water and no particulate Filters placed in a standard outlet tee of S & D type with a 17" tailpiece to outlet level Test tank was a plastic 55 gallon drum There was an accurate method to measure head height above outlet level Test was done for a '/2" and P head height above outlet level AN filters tested using the above conditions head hei ht abbove outlet flow I -I" iead hekght above outlet now 15, 1 MWISIM" # * 0 4 'L of 814, & GARY B. JOHN N EER 32 31 It is my opinion that the Simqech filter will prove to be a superior septic tank filter because of ifs basic design; bristles to catch any "paper like" debris on the outside surface ( guided there because of the bristles bending at the ends under pressure of the flow ) . A dead zone near the center to collect small particles as they M out of the flow. Plus the incalculable water paths through, and around, the filter fibers. Gary B. Johnson P.E. 363 Silver Creek- Rd Petoskey, Mi 49770 of "Ic.V GARY B- JOH is EER 3!8:31 P43LYAkOX Inc. Innovations in Precast, Drainage Zabel® & Wastewater Products tD A Division of Polylok Inc. PL-122 Filter PL-122 Effluent Filter The PL-122 was the original Polylok filter. It was the first filter on the market with an automatic shut-off ball installed with every filter. When the filter is removed for regular servicing, the ball will float up and prevent any solids from leaving the tank. Our patented design cannot be duplicated. Features: • Offers 122 linear feet of 1/16" filter slots, which significantly extends time between cleaning. • Has a flow control ball that shuts off the flow of effluent when the filter is removed for cleaning. • Has its own gas deflector ball which deflects solids away. • Installs easily in new tanks, or retrofits in existing systems. • Comes complete with its own housing. No gluing of tees or pipe, no extra parts to buy. • Has a modular design, allowing for increased filtration. PL-122 Installation: Ideal for residential waste flows up to 3,000 gallons per day (GPD). Easily installs in any new or existing 4" outlet tee. 1. Locate the outlet of the septic tank. 2. Remove the tank cover and pump tank if necessary. 3. Glue the filter housing to the outlet pipe, or use a Polylok Extend & Lok if not enough pipe exists. 4. Insert the PL-122 filter into tee. 5. Replace and secure the septic tank cover. PL-122 Maintenance: The PL-122 Effluent Filter will operate efficiently for several years under normal conditions before requiring cleaning. It is recommended that the filter be cleaned every time the tank is pumped, or at least every three years. 1. Do not use plumbing when filter is removed. 2. Pull PL-122 cartridge out of the tee. 3. Hose off filter over the septic tank. Make sure all solids fall back into septic tank. 4. Insert filter back into tee/housing. Polylok offers the only filter on the market where you can get more GPD by simply snapping our filters together! Patent Numbers 6,015,488 & 5,871,640 Filter Ready Adapter Connects to Septic Tank Wall Accepts 1/2" PVC :tension Handle Alarm Switch (Optional) 122 Linear Ft. of 1/16" Filtration Slots ilter Housing with " & 4" Pipe Adapter " Filtration Slots 3,000 GPD (D Deflector :)matic Shut -Off Ball Outdoor SmartFilter® Alarm Polylok, Zabel & Best filters accept the SmartFilter® switch and alarm. www.polylok.com 1-877-765-9565 NSF. The Public Health and Safety Organization NSF Product and Service Listings These NSF Official Listings are current as of Wednesday, April o6, 2016 at 12.15 a.m. Eastern Time. Please contact NSF International to confirm the status of any Listing, report errors, or make suggestions. Alert: NSF is concerned about fraudulent downloading and manipulation of website text. Always confirm this information by clicking on the below link for the most accurate information: http://info.nsf.org/Certified/Wastewater/Listings.asp? Standard= o46&Company= 795-8 & NSF/ANSI 46 Evaluation of Components and Devices Used in Wastewater Treatment Systems Polylok Inc. 3 Fairfield Boulevard Wallingford, CT o6492 United States 877-765-9565 203-265-6340 Facility: Cheshire, CT Septic Tank Effluent Filters[i] PL-122 PL-250 P L-525 PL-625 PL-68 [1] Performance tested using bead size 0.338 cm ± 0.005 cm (1/8" ± 0.002"). Meets the full requirements of NSF/ANSI 46-2010. Facility: Evansville, IN Septic Tank Effluent Filter Components[i] Alol-12x20 A101-12x28 A101-8x32 A18ol-018141 A3o1-12x36 A3o1-8x18 Aio1-12x36 A1oi-8xi8 Ai801-4x22141151 A,301-12x20 A3oi-8x26 A3o1-8x32 Alol-8x26 A3o1-12x28 [11 Septic Tank Effluent Filter Components are exempt from bearing the NSF Component Mark and shall bear the NSF Unit Mark. [4] Filter cartridges Certified in ABS and PVC materials. [5] Failure sensing and signaling equipment of this product not evaluated by NSF. Septic Tank Effluent Filters[2] 131 AiOO-12x20 A1oo-12x20-VC AiOo-12x2O/BALL Aioo-8x18-VC A1oo-8x26-VC Aioo-8x32-VC A1800-4x18-VT-B40 A1800-4x18-VTF-B35Ai8Oo-4xl8-VTF-B4o A1800-4x22-VT-B40 Ai8OO-4x22-VTF-B35A1800-4x22-VTF-B40 A300-i2x20/BALL A300-12x28-VC A300-12x36-VC A300-8x32-VC Moo-i2x2o A6O0-12x2o/BALL A600-8xi8-VC Moo-8x26-VC Moo-8x32-VC A1O0-12x28-VC Aioo-12x36-VC A1800-4x18-30142-68 A1800-4xi8-VT-B35 A1800-4x22-30142-68A18OO-4x22-VT-B35 A300-12x20 A300-12x20-VC A300-8x18-VC A3oO-8x26-VC A6OO-12x28-VC A6OO-12x36-VC [2} Suffix VC denotes a filter cartridge with Versa -Case assembly. [3] Performance tested using bead size 0.338 cm ± 0.005 cm (1/8" ± 0.002"). Meets the full requirements of NSF/ANSI 46-2010. NOTE: All filters come Smartfilter ready. Number of matching Manufacturers is 1 Number of matching Products is 52 Processing time was o seconds E 1111111111'111EAT Re -Circulating Synthetic Filter E-Z Treat is a modular system with proven performance in residential and commercial applications. E-Z Treat is prepackaged in a "pod" featuring synthetic media encapsulated in a flexible mesh container. E-Z Treat protects sensitive watersheds through removal of nitrogen and other constituents. Applications Residential Commercial or community Intermittent or seasonal use Space constrained sites Harsh climates Nitrogen sensitive areas Water Reuse Models bearing the NSF mark are certified Class I to one or more of the following standards: NSF/ANSI 40 NSF/ANSI 245 NSF/ANSI 350 E� .TREAT Re -Circulating Synthetic Filter Why Choose E-Z Treat? o Produces water reuse quality effluent o Certifed to NSF/ANSI Standards 40, 245, and 350 o Proven results for over 15 years through third party feld testing o Spray nozzles maximize oxygen contact through small water droplet size o Simple to use and suitable for wide range of applications o Prepackaged, lightweight pod for easy installation o Synthetic media: - Resists biological clogging - Provides large, open surface area - Allows free air flow - Requires no media cleaning Call: 703.753.4770 or visit: eztreat.net ©2017 E-Z Treat Pre -assembled Pod Flexible configurations Multiple sizes available Lightweight pods Non -clog media High level denitrification Optimized for water reuse E-Z�� T Re -Circulating Synthetic Filter 1. Collection Sewage flows from the home or facility into a watertight primary tank or chamber. The solids settle and the liquid effluent flows by gravity through an effluent filter to the system. 2. Treatment The E-Z Treat Re -circulating Synthetic Filter provides passive biochemical treatment through an active biof lm matrix. The styrene media is very uniform and provides ample surface area for biological growth. The styrene media contains many voids to accommodate optimum air and liquid flow. The spray nozzles create very small water droplet size (mist), thereby maximizing oxygen contact. 3. Dispersal The re -circulation chamber contains a float ball by-pass valve and re -circulation pump. The by-pass valve connects to the 4" return line from the E-Z Treat pod. The by-pass valve allows the effluent to be constantly re -circulated through the styrene media. Treated effluent exits the by-pass valve and flows into a gravity drainfeld or into a pump chamber for dosing LPP, drip irrigation, or other pressurized NSF Testing Performance Summary drainfelds. Effluent is suitable Parameters Effluent, Avg. for reuse. UV disinfection may be required. BOD5 2 mg/I TSS 2 mg/I DO 3.3 mg/I Turbidity 2 NTU E. coli * 2 MPN/100ml PH 6.8 —7.5 Total Nitrogen Reduction 64% *with optional UV disinfection Call: 703.753.4770 or visit: eztreat.net ©2017 E-Z Treat Standard Model Package: Item Description 1 STEP-20 Re -circulation Pump, 112 HP 2 Float By -Pass Valve 3 Control Panel 4 Styrene Media *Septic tank effluent filter is supplied by others Please Note: pump is changed to STEP-30 1/2 hp by E-Z Treat ❑3 4❑O's. r ®� FE del 1200 93.00 lL VALVE 1" 6AlL E ll 2 'PAPON RF T EA Models bearing the NSF mark are certified Class I E� � to one or more of the following standards: � NSF/ANSI 40 �_ NSF/ANSI 245 NSF/ANSI 350 Models bearing the NSF mark are certified Class I E� � to one or more of the following standards: � NSF/ANSI 40 �_ NSF/ANSI 245 NSF/ANSI 350 E�Z,--,--.TREAT Re -Circulating Synthetic Filter Installation or Inspection Checklist NSF Models bearing the NSF mark are certified Class I to one or more of the following standards: NSF/ANSI 40 NSF/ANSI 245 NSF/ANSI 350 ©2017 E-Z Treat 2-2017 Pre -construction Meeting ❑ Pre -construction meeting held? Personnel present at pre -construction meeting (check all that apply): ❑ Owner ❑ Builder ❑ Engineer or Designer ❑ Regulator ❑ Installer ❑ Service Provider Septic Tank ❑ Septic tank sized per code or certification criteria? ❑ Is septic tank installed per manufacturer's requirements? N ❑ Does septic tank, riser(s), and access cover(s) meet applicable structural standards? r+ 0) ❑ 1/16" commercial effluent filter/screen installed on outlet? ❑ Is effluent filter/screen able to be removed for cleaning? fu r+ ❑ Is septic tank accessible? 0� ❑ Are septic tank, risers, and access covers watertight? n 0 Re -circulation Tank I ❑ Re -circulation tank sized per code or certification criteria? N ❑ Is re -circulation tank installed per manufacturer's requirements? (p ❑ Does re -circulation tank, riser(s), and access cover(s) meet applicable structural standards? (i r+ ❑ Is re -circulation tank accessible? 0• ❑ Are re -circulation tank, risers, and access covers watertight? ❑ All piping from septic tank to re -circulation tank installed per code? n ❑ Is the by-pass valve installed in the re -circulation tank properly? S (D ❑ Is the by-pass valve inlet connection from E-Z Treat pod installed properly? f� ❑ Is the by-pass valve outlet connection to gravity drainfield or to drainfield pump tank/basin _X, installed properly? (A e'+ Pump ❑ Is pump installed per manufacturer's requirements and code? ❑ Is pump accessible and removable? ❑ Is quick disconnect method (union, camlock, or pitless adapter) installed? (Don't install a check valve!) ❑ Is 1/8" drainage and anti -siphon hole drilled in the PVC pump supply pipe just above the discharge end of the pump? ❑ Is pump installed, connected, and tested? (type, gauge and length of wire, connected using water -proof connectors and the conduit sealed -off) Call: 703.753.4770 or visit: eztreat.net ©2017 E-Z Treat Force Main ❑ Is force main been installed with pressure rated fittings/pipe and per code? ❑ Are PVC fittings and pipe cleaned, primed, and glued properly? ❑ Is the force main sized according to manufacturer's recommendations? ❑ Is force main watertight? ❑ Is the force main installed to allow for drain -back to prevent freezing of piping, if applicable? E-7 Treat Pod ❑ Stone pad size large enough for pod to set on (6'W x 91 x 4'H)? ❑ Stone pad depth sufficient and leveled for pod to drain towards 4" outlet? ❑ Is pod leveled and sloped 1" toward the bottom outlet drain? ❑ Is 4" return line to by-pass valve installed and per code? ❑ Are PVC fittings and pipe cleaned, primed, and glued properly? N ❑ Is the return line sized according to manufacturer's recommendations? r ❑ Is return line watertight? — ❑ Pod lid secured and cleaned off? 0) r+ p� Soil Grading Around Pad n ❑ Is area covered with suitable topsoil (free from large stones or sharp objects) around the pod? ❑ Is suitable topsoil packed around pod? ❑ Is suitable topsoil been lightly compacted around lid of pod to prevent settling? (A ❑ Is the area been seeded and straw placed on top of topsoil for stabilization? fD n COlrlucn ranC, and EIM;LFIGaI r+ O� Check all that apply: n 0 Type of timer: ❑ Analog ❑ Digital S Elapsed Time Meter: ❑ Yes ❑ No nCycle Counter: ❑ Yes ❑ No Panel heater: ❑ Yes ❑ No (A e'+ ❑ Is control panel installed per manufacturer's requirements and code? ❑ Is a NEMA 4X junction box used for all float and pump connections? ❑ Are floats installed, connected, and tested? (type, gauge and length of wire, connected using water -proof connectors, and the conduit sealed -off) ❑ Is power connected per code? (type, gauge and length of wire, and the conduit sealed -off) ❑ Is conduit used between control panel and re -circulation tank? ❑ Is the re -circulation pump timer set based on the manufacturer's criteria? Call: 703.753.4770 or visit: eztreat.net ©2017 E-Z Treat E� TREAT Re -Circulating Synthetic Filter Design Guide and Installation Manual NSF Models bearing the NSF mark are certified Class I to one or more of the following standards: NSF/ANSI40 NSF/ANSI 245 NSF/ANSI 350 ©2017 E-Z Treat 2-2017 TABLE OF CONTENTS 1.0 Treatment Process Overview 1 2.0 Design 1 2.1 Re -circulation Tank Sizing 1 2.2 Filter Performance 2 2.3 Operating Costs 2 2.4 E-Z Treat Loading Rates 2 2.5 System Overview 3 2.6 Spray Manifold System 7 2.7 Filter Media Mattress Material 7 2.8 Decentralized Design Options for Commercial, Community, or Large On -site Systems 8 3.0 Installation Instructions 12 3.1 Pre -construction Meeting 12 3.2 Off Loading Treatment System 12 3.3 Excavating and Installing the Pod 13 3.4 Piping the E-Z Treat Pod Supply and Return 13 3.5 Installing the By -Pass Valve 13 3.6 Installing the Re -circulation Pump 14 3.7 Setting Pump Control Floats 14 4.0 Start-up 15 Appendix 1: Model 600 Configurations 18 Appendix 2: Model 1200 Configurations 20 Appendix 3: Typical Commercial Configurations 22 Appendix 4: High Strength Waste Case Study 24 1.0 Treatment Process Overview The E-Z Treat Re -circulating Synthetic Filter system operates as a fixed media, packed bed filter system. In these treatment systems, larger solids contained in the applied effluent are retained within the media by filtration, typically in the upper level of the filter media. A bacterial film forms on the surface of media grains and provides for removal of soluble organic material and small colloidal matter by absorption by the bacteria in the film. Decomposition of the absorbed material occurs during rest periods in the filter, when there is no application of effluent. The organic material becomes an energy source for the bacteria to maintain them- selves and produce new cells. Over time, as the filter matures, the film layer forms through- out the depth of the filter media and by-products of the biological process pass out of the fil- ter. Re -circulation of the water leaving the filter back through the filter surface provides for additional treatment by the bacteria in the media bed, as well as a mechanism for moving par- tially decomposed organic materials, bacterial waste products and other debris from the fil- ter. This keeps the pore spaces within the media from clogging. Treatment using recirculating media filtration systems is generally an aerobic process and re -aeration of the media, which occurs during the resting (non -dosing) periods, is essential for proper treatment. Table 1 Recommended System & Re -circulation Chamber Sizes for Residential Applications 2.0 Design I Mew. I'MR.R.MW 1"M A M, ., Mr. 9R.W -4 .., )11�Model Many types of media are 600 Model used in packed bed filters. 300 750 300 1 1 Washed, graded sand 400 750 400 1 1 was the most common. 500 900 500 1 1 Other granular media 600 900 600 1 1 used include crushed 700 1000 700 1 1 glass, garnet, anthracite, 800 1000 800 2 1 plastic, expanded clay, 900 1500 900 2 1 expanded shale, open -cell 1000 1500 1000 2 1 foam, extruded poly- 1100 1500 1100 2 1 styrene, and bottom ash 1200 2000 1200 2 1 from coal-fired power 1300 2000 1300 2 1 plants. 1400 2000 1400 2 1 Notes: 1. Tank sizing are not exact and may vary (+ or-10%) based on availability of locally Media characteristics produced tanks. can limit the number of 2. Forseasonal or intermittent use applications, please contact us for design guidance. doses possible. Media re -aeration must occur between doses. As the effective size of the media decreases, the time for drainage and re -aeration of the media increases. The BOD5 loading should decrease with decreasing effective size of the sand. Call: 703.753.4770 or visit: eztreat.net 2.1 For single-family home systems, the re- circulation tank is typically sized to be equal to 0.75 to 1 times the design peak daily flow. ©2017 E-Z Treat 2.2 filter Performance When treating domestic strength sewage (300 mg/I BOD5 or less) up to the design flows and loads, a properly maintained E-Z Treat Re -circulating Synthetic Filter will typically perform better than the 30-day average requirements of NSF Standard 40 Class 1 (25 mg/I CBOD5 and 30 mg/I TSS). Reductions in the CBOD5 and suspended solids (TSS) influent concentrations will be attained within a few weeks of commissioning and should be consistently achieved over the lifetime of the styrene media. CBOD5 and suspended solids (TSS) treatment performance in the styrene media is not subject to significant variation with ambient air temperature fluctuations. 2.3 operating Costs Power costs for pumping at 3 to 4 kWh/day are in the range of $9 to $12/month. The E-Z Treat Re -circulating Synthetic Filter system incorporates technology resulting from years of independent research in re -circulation sand bio-filtration. Our system applies each area of this technology in a pre- packaged system. This ensures consistent field performance in reducing BOD, TSS and Total Nitrogen. The system addresses media size and composition, drainage and ventilation, optimum dosing cycles per hour, depth of filter media, pre-treatment of effluent, pre -filtering of effluent to ensure particle size, even distribution of effluent over the media, and piping design that optimize treatment within the system. Call: 703.753.4770 or visit: eztreat.net Table 2 NSF Testing Performance Summary BOD5 2 mg/I TSS 2 mg/I DO 3.3 mg/I Turbidity 2 NTU E. coli 2 MPN/100ml pH 6.8 — 7.5 Total Nitrogen Reduction 64% *with optional UV disinfection 2.4 E-Z Treat Loading Rates In accordance with the EPA Design Guidelines and field testing of the E-Z Treat Re -circulating Synthetic Filter Model 600 can be continuously loaded at 750 GPD and 2 lb BOD. Model 1200 can be continuously loaded at 1400 GPD and 4Ib BOD. EPA research and testing has proven that system designs, such as the E-Z Treat Re -circulating Synthetic Filter system, will produce a high quality effluent at loading rates in excess of 25 gal/ft2/day. ©2017 E-Z Treat 2.5 System Overview Prior to entering the re -circulating pump tank the effluent will be treated in an anaerobic chamber fitted with an effluent filter; this filter should remove any solids greater than 1/16". The second chamber will be a re -circulation chamber fitted with a float ball by-pass valve and re -circulation pump. The float ball by-pass valve connects, inside the re -circulation tank, to the 4" return line from ■ 41 Call: 703.753.4770 or visit: eztreat.net the pod. Thefloat by-passvalve maintains a constant liquid volume in the re -circulation tank. The float by-pass valve allows the effluent to be constantly re -circulated through the synthetic filter discharging only the daily forward flow volume after it has passed through the pod. In designs using an external splitter box the float by-pass valve would be eliminated from the re -circulation chamber. Standard Model 600 Package: 1 I Model 600 Pod 2 I STEP-20 Re -circulation Pump, 1/2 HP 3 4 5 Float By -Pass Valve Control Panel Septic Tank Effluent Filter (supplied by others) Recirculation Pump is changed to STEP 30 1/2 hp by E-Z Treat. ©2017 E-Z Treat 3 STEP-20 Re -circulation Pump Recirculation Pump is changed to STEP 30 1/2 hp by E-Z Treat. Table 3 Pump Specifications Shell Stainless steel Discharge 10, 20 and 30 GPM models: fiberglass -reinforced thermoplastic; 50 GPM models: stainless steel Discharge Bearing Nylatron° Impellers Delrin° Diffusers Polycarbonate Suction Caps Polycarbonate with stainless steel wear ring Thrust Pads Proprietary specification Shaft and Coupling Stainless steel 300 grade Intake Fiberglass -reinforced thermoplastic Intake Screen Polypropylene Jacketed Cord 300 volt "SOOW" jacketed 10" leads (2-wire with ground); optional 20", 30", 50" and 100" lengths available Delrin° is a registered trademark of E.I. Dupont de Nemours & Company Nylatron° is a registered trademark of Polymer Corporation S.T.E.P. Plus° is a registered trademark of Pentair Water In order to provide the best products possible, specifications ar subject to change Table 4 Pump Performance — 20 GPM CU 0 300 r 250 200 100 50 Capacity Liters per Minute 25 50 75 100 0 10 20 Capacity Gallons per Minute Call: 703.753.4770 or visit: eztreat.net 30 80 60 E -a 40 a 20 ©2017 E-Z Treat 2.6 Spray Manifold Systei,6 To maximize the effectiveness of every cubic inch of the media material, the Model 600 employs a spray manifold with 8 evenly spaced wide-angle spray nozzles and Model 1200 employs 12 nozzles. The nozzles are plastic construction with a free passage of 0.0625" in diameter; this large free passage helps prevent nozzle clogging while maintaining a consistent misting spray. The manifold is assembled with a pressure gauge and valves allowing for flow rate adjustments. 2.7 Filter Media Mattress Material MOD ZMGE I- Wt VALVE III Model1200 91.50 `SPRAYHOZU The E-Z Treat Re -circulating Synthetic Filter system employs a manufactured synthetic media which is encapsulated in a mattress like container. The mattress is fabricated from a non -biodegradable; chemically resistant, loose weave polypropylene material with a weave pattern at 90 degree intersections creating 0.078 square openings allowing effluent and air to flow freely while containing the media material. This media is very uniform and provides ample surface area for biological growth. The media also has enough voids to accommodate good air and liquid flow. These void spaces also allow the passage of very small solids that would clog many filters. The media is very lightweight making it resistant to compaction which can lead to poor air and liquid flows, a problem that plagues many media filters. The media consists of lightweight, non - biodegradable plastic spheres. Call: 703.753.4770 or visit: eztreat.net 6ALLVALVE Polypropylene Mattress Material Styrene Media ©2017 E-Z Treat 3.0 Installation Instructions E-Z Treat Company or its representative will conduct on -site training with each installer before they are certified to install E-Z Treat systems. The training will include instruction on proper site prep, locating pod, equipment handling, excavation, pod placement, piping, wiring and start up of the E-Z Treat system. Annual classroom training will be a requirement for installers to maintain their certification. As a condition of E-Z Treat certification, contractors must have proper state and local licenses and appropriate insurance policies. E-Z Treat distributors will only sell or authorize installations by E-Z Treat certified installers. The E-Z Treatment pod will ship pre -assembled, requiring only field piping of the pod supply line and discharge line, installing the re -circulation pump, 4" float by-pass valve and the re -circulation control. When installing the E-Z Treat system the order of components installation is not critical and each segment can be installed independently. 3.1 Pre -construction Meeting A pre -construction meeting is recommended before any construction commences. This meeting is an opportunity for the owner, builder, engineer/designer, local regulatory agencies, service provider and installer to clarify property lines, building location, system location, power sources, drainage areas, final site grading and answer general questions. Call: 703.753.4770 or visit: eztreat.net 3.2 Off Loading Treatment System The E-Z Treat Re -circulation Synthetic Filter pod is injection molded polyethylene weighing about 300 pounds. Because of the relative light weight and toughness of the material, special handling is not required. Two people can easily unload the pod. If machinery is used to off load the pod or transport it to the excavated hole; nylon straps, chains or cables used to lift the pod should be in good condition and rated for at least 1000 pounds. The re -circulation pump and control will be shipped in factory sealed cardboard box, these items are not fragile but should be handled with reasonable care not dropped or thrown. ©2017 E-Z Treat 3.3 Excavating and Installing the Pod The first consideration when installing the E-Z Treat pod is to assure the pod is not located in a drainage area and the pod is located above the seasonal high water table, this will protect the pod from floating and prevent surface water infiltration. Excavate a hole approximately 6'W x 9'L x 4'H. Place 3/4" to 1" stone or equal to a height of 4" in the bottom of the excavation forming a level base for the pod to set, this will prevent settling of the pod and allow for leveling of the pod. Backfill the pod with clean fill soil, free of rocks and foreign material. Do not compact the fill, allow the soil to settle naturally. Once the pod is placed in the excavation adjust the pod to slope 1" toward the 4" PVC outlet this assure proper drainage. 3.4 Piping the E-Z Treat Pod Supply and Return Once the pod is placed and leveled, connect 4" PVC pipe between the outlet of the pod and the by-pass valve located in the re -circulation tank. Attach 1" PVC supply line between the 1" inlet on the pod and the re -circulation pump. 3.5 Installing the By -Pass Valve The by-pass valve is located in the re -circu- lation tank and one side is connected to the 4" PVC drain line coming from the pod and the other side is connected to the 4" PVC effluent discharge line or into the effluent pump tank. Call: 703.753.4770 or visit: eztreat.net Model 600 Pod Floz 4" Outlet Weir ©2017 E-Z Treat 13 3.6 Installing the Re -circulation Puml Connect the 1" PVC pipe between the inlet of the pod and the re -circulation pump. Always provide a quick disconnect device for removing the pump, this can be accomplished with a union, camlock coupler or pitless adapter. DO NOT install a check valve in the pump supply line this will prevent the supply line to the pod spray manifold from draining and may cause freezing. To ensure complete drainage of the spray manifold drill an 1/8" hole in the PVC pump supply pipe just above the discharge end of the pump. 3.7 Setting Pump Control Floats (see page 6) The control panel will come with three liquid level floats: Float Settings 1. Low Level Alarm Float protects the pump from run dry damage by turning off the pump and sound an audible and visual alarm. Set float to activate if the effluent level drops to 4" above the pump intake. 2. Timer Enable Float activates the pump run time and assures the pump only runs when there is sufficient effluent in the re -circulation tank. Set float to activate when effluent level in the recirculation tank is filled to 50%. 3. High Level Alarm Float will sound an audible and visual alarm when the effluent in the re -circulation tank is too high. Set float to activate when the effluent level in the in the re- circulation tank is level with the top of the by-pass valve. Call: 703.753.4770 or visit: eztreat.net 1/8" Hole ©2017 E-Z Treat 14 4.0 Start-up Septic Tank and Re -circulation Tank The septic and re -circulation tank shall be inspected prior to start up to: Verify the lid and riser assemblies are watertight. Check for any damaged, water weeping marks, holes or cracks. The sys- tem must remain watertight to perform properly. Inspect the outlet effluent filter installation to insure it is installed in accordance with the effluent filter manufacturer's specifi- cations. Inspect the liquid level in the recirculation tank, the liquid should be sufficient to activate the Timer Enable Float. 4. Inspect the location of the float controls. They should be securely attached to the float bracket, free to float without obstructions and the location of the floats should correspond with the float diagram on page 10. Power Supply 1. Verify the main power supply to the re- circulation panel has properly sized breakers, the proper voltage and is installed in protection water tight conduit. Check the voltage and motor amp draw. If the readings are beyond the limits speci- fied on the pump have an electrician check the main service line feeding the system control panel. By -Pass Valve 1. Verify the main power supply to the re- circulation panel has properly sized breakers, the proper voltage and is installed in protection water tight conduit. Check the voltage and motor amp draw. If the readings are beyond the limits specified on the pump have an electrician check the main service line feeding the system control panel. Call: 703.753.4770 or visit: eztreat.net Flush the Spray Manifold 1. At initial system start-up, remove the end caps from the spray manifold. Operate the re -circulation pump by turning the pump control to the "HAND -ON" position. Let the pump run for one minute then turn the pump control to the "OFF" position repeat this procedure three times to flush any construction debris such as dirt or pipe shavings from the spray manifold. Replace the end caps hand tight —do not use wrenches or pliers. Re -set the pump con- trol selector switch to the "AUTO" position. 2. Using the ball valve located in the manifold supply line adjust the manifold pressure to 20 to 25 PSI. 3.Observe the system as it re -circulates. Visually verify all liquids flows freely through the system. Setting the Re -circulation Pump Control 1. Check the functions of the E-Z Treat Re -circulating Synthetic Filter control panel. Control: Main Control "ON/OFF" switch Function: Turns power ON or OFF Control: System Setting Switch "MANUAL ON" and "AUTO ON" Function: "MANUAL ON" overrides all float switches and time clock switches. "AUTO ON" allows for normal operations dictated by the time clock and float switches. Control: Timer "MINUTES ON" and "MINUTES OFF" Function: Controls run time of re -circulation pump i.e. GPD re -circulated through media Control: High and Low WaterAlarm "ALARM ON", "ALARM AUTO" and "ALARM SILENCE" Function: "ALARM ON" will manually turn on the audio/visual alarms. "ALARM AUTO" is the normal operational setting and "ALARM SILENCE" turns off the alarms. 2. Check re -circulation pump. Place the system in the manual mode by turning the re -circu- lation pump switch to "ON': The re -circula- tion pump should begin to supply effluent to the spray nozzles in the treatment pod. ©2017 E-Z Treat Control Panel/Pumps/Alarms I. Place the system in the normal operating mode by turning the re -circulation pump switch to "AUTO". Verify the timer ON/OFF set the ON/OFF time to match Table 5 below. 2. Verify the accuracy of the system ON/OFF Timer. To accomplish this use a stop watch and verify the length of time the re -circulation pump is OFF then verify the time the re -circulation pump is ON. Those times should match the ON/OFF Timer settings in the control panel. 3. Confirm the operation of the visual and audible "HIGH" and "LOW" water alarms. The control has an alarm switch clearly marked Alarm "ON", Alarm "AUTO" and Alarm "SILENCE". Place the Alarm Switch in the "ON" position, you will hear a loud buzzer and see a red flashing light. Move the switch to the Alarm" SILENCE" position the red light and buzzer will go dormant. Once the alarms have been triggered return all settings to their original position of Alarm "AUTO" Table 5 Timer Settings 4. Verify the floats are operational by manually raising and lowering the floats to simulate the systems normal operation. Verify proper operation of "High Level Float" by lifting the float while the system timer is in the "OFF" time mode, the re -circulation pump should turn on over riding the "OFF" timer, the Visual and Audible alarms should activate. Return the float to its normal position the re -circulation pump will turn off. Reset the alarms and manually lower the "Low Water Float" with timer in the "ON" mode, the re -circulation pump will turn off and the visual/audible alarms will activate. Return the float to the normal position and the re -circulation pump will run. Reset the Alarms. 5. Verify all control breakers are in the "ON" position and all control switches are in the "AUTO" position before closing and securing the system. 300 750 300 2.5 24 2.5 39 400 750 400 2.5 20 2.5 28 500 900 500 2.5 16 2.5 22 600 900 600 2.5 14 2.5 18 700 1000 700 2.5 21 2.5 15 800 1000 800 2.5 18 2.5 13 900 1500 900 2.5 15 2.5 11 1000 1500 1000 2.5 13 2.5 9 1100 1500 1100 2.5 12 2.5 8 1200 2000 1200 2.5 10 2.5 7.5 Note: Tank sizing are not exact and may vary (+or-10%) based on availability of locally produced tanks. Call: 703.753.4770 or visit: eztreat.net ©2017 E-Z Treat 16 M Appendix 4 High Strength Waste Case Study Below are the test results of E-Z Treat Re -Circulating Synthetic Filter system in a high strength waste application. This was a repair of a failed High Strength Aerobic Treatment Unit at a restaurant. The effluent from the ATU plugged the drip field and the tubing had to be replaced. The health department required the effluent to achieve residential strength quality before dispersal to the subsurface drip tubing. The solution was to install two Model 1200 pods. The state required monthly testing the first six months and annual testing thereafter. The average daily flow is 1,500 GPD. The system has been operation since 2009 and the media has not been replaced or cleaned. Table 6 BOD Loading Parameter Effluent, Avg Daily Flow 1,500 Influent BOD loading 1900 mg/I Influent BOD mass load 24 Ibs/day BOD mass load per pod 12 Ibs/day Table 7 Commercial Test Results (sample restaurant) Influent sample location: First septic tank outlet Effluent sample location: E-Z Treat outfall Note: System repairs completed by 7/9/2009 Call: 703.753.4770 or visit: eztreat.net ©2017 E-Z Treat 24 Recirculation Pump STA-RITEO ST.E.P Plus Series 4" high -head multi -stage submersible effluent pumps The STEP Plus 4" submersible filtered effluent pumps in 10, 20, 30 and 50 GPM models offer dependable performance and value for high pressure filtered effluent applications. These STEP Plus pumps will handle "dry run" conditions. The 10, 20, 30 and 50 GPM are industry standard 3-3/4" in diameter. Filtered Effluent... for residential, commercial, and agricultural use. Shell - Stainless steel Discharge - 10, 20 and 30 GPM models: fiberglass -reinforced thermoplastic; 50 GPM models: stainless steel Discharge Bearing — Nylatron® Impellers — Engineered composite Diffusers — Engineered composite Suction Caps — Engineered composite with stainless steel wear ring Thrust Pads — Proprietary spec. Shaft and coupling — Stainless steel300 grade Intake — Engineered composite Intake Screen — Polypropylene Jacketed Cord — 600 Volt "SOOW" or 300 Volt "SJOW" jacketed 10' leads (2-wire with ground); optional 20', 30', 50' and 100' lengths available In order to provide the best products possible, specifications are subject to change. Proven "Floating Impeller" Staging System —Incorporates 1st -in -class performance, sand handling and thrust management staging system with the industry exclusive "dry -run" design element. Reinforced engineered composites and stainless steel, offering high resistance to corrosion and abrasion. Discharge — Tested -tough, fiberglass - reinforced thermoplastic, with proven internal check valve. Large wrench flats and rope hole. Shell — Stainless steel pump shell offers high corrosion resistance. Shaft — Hexagonal3/8", 300-grade stainless steel pump shaft; offers generous impeller drive surfaces. Shaft Bearing — Exclusive self- lubricating Nylatron bearing resists wear surface from sand. Motor Bracket— Tested -tough, fiberglass - reinforced thermoplastic; incorporates an integral suction screen. ►; PENTAIR 1 S11411WS Recirculation Pump STA-RITEO ST.E.P Plus Series 4" high -head multi -stage submersible effluent pumps ,.� ,. CATALOG NUMBER ,, HP STAGES MAX. LOAD AMPS VOLTS PHASE/ CYCLES CORD LENGTH STEP10 1/2 7 12.0 115 1/60 10' STEP10X10OFT-05121 1/2 7 12.0 115 1/60 100' STEP10X30FT 1/2 7 12.0 115 1/60 30' STEP10X50FT 1/2 7 12.0 115 1/60 50' STEP20 1/2 5 12.0 115 1/60 10' STEP20X100FT-05121 1/2 5 12.0 115 1/60 100' STEP20X30FT 1/2 5 12.0 115 1/60 30' STEP20X50FT 1/2 5 12.0 115 1/60 50' STEP30-05121 1/2 3 9.5 115 1/60 10' STEP30X100FT-05121 1/2 3 12.0 115 1/60 100' STEP30X30FT-05121 1/2 1 3 1 12.0 j 115 j 1/60 j 30' STEP30X50FT-05121 1/2 3 12.0 115 1/60 50' S, EP30-05221 1/2 3 4./ 230 1M I STEP30X100FT-05221 1/2 3 4.7 230 1/60 100' STEP30X30FT-05221 1/2 3 4.7 230 1/60 30' STEP30X50FT-05221 1/2 3 4.7 230 1/60 50' STEP30-10221 1 5 9.1 230 1/60 10' STEP30X100FT-10221 1 5 9.1 230 1/60 100' STEP30X30FT-10221 1 5 9.1 230 1/60 30' STEP30X50FT-10221 1 5 9.1 230 1/60 50' STEP30-15221 1-1/2 6 11.0 230 1/60 10' STEP30X100FT-15221 1-1/2 6 11.0 230 1/60 100' STEP30X30FT-15221 1-1/2 6 11.0 230 1/60 30' STEP30X50FT-15221 1-1/2 6 11.0 230 1/60 50' STEP50-10221 1 3 9.1 230 1/60 10' STEP50X100FT-10221 1 3 9.1 230 1/60 100' STEP50X30FT-10221 1 3 9.1 230 1/60 30' STEP50X50FT-10221 1 3 9.1 230 1/60 50' STEP50-15221 1-1/2 4 11.0 230 1/60 10' STEP50X100FT-15221 1-1/2 4 11.0 230 1/60 100' STEP50X30FT-15221 1-1/2 4 11.0 230 1/60 30' STEP50X50FT-15221 1-1/2 4 11.0 230 1/60 50' NOTE: Cord Length shall be determined by site condition S11411WS Recirculation Pump STA-RITE'ST.E.P Plus Series NOTE: by ase see pump curve provided by E-Z Treat 4" high -head multi -stage submersible effluent pumps CAPACITY GALLONS PER MINUTE CAPACITY GALLONS PER MINUTE CAPACITY LITERS PER MINUTE 0 25 50 75 100 125 150 175 I I I I I I I 225 200 175 F 150 W W LL Z 125 13 x 100 J F OF 75 50 25 N--------- _�'_------ ---`------ -M�%imm -- ---� 0 10 20 30 40 CAPACITY GALLONS PER MINUTE .60 -50 -10 i 0 50 F 80 W W LL Z Q 60 w x J F 40 U I LU JU 4U JU bU /U OU CAPACITY GALLONS PER MINUTE 10 3 511411WS Recirculation Pump STA-RITEO ST.E.P Plus Series 4" high -head multi -stage submersible effluent pumps 1-1/4" NPT DISCHARGE 2" NPT DISCHARGE (50 GPM ONLY) 10 GPM, 1/2 HP = 13" 20 GPM, 1/2 HP = 13-1/4" 30 GPM, 1/2 HP = 11-1/2" 30 GPM, 1 HP = 14" 30 GPM, 1-1/2 HP = 15-1/4" 50 GPM, 1 HP = 13-1/4" 50 GPM, 1-1/2 HP = 15-1/4" 10 GPM, 1/2 HP = 21-1/2" 20 GPM, 1/2 HP = 22-1/4" 30 GPM, 1/2 HP = 22-1/2" 30 GPM, 1 HP = 27-1/2" 30 GPM, 1-1/2 HP = 30-1/4" 50 GPM, 1 HP = 26-3/4" 50 GPM, 1-1/2 HP = 30-1/4" Dimensions (in inches) are for estimating purposes only. 293 WRIGHT STREET, DELAVAN, WI 53115 WWW.STA-PITE.COM PH:888-782-7483 ORDERS FAX:800-426-9446 PENTAI Because we are continuously improving our products and services, Pentair reserves the right to change specifications without prior notice. S11411WS (09/10/14) 225 200 175 150 W W LL Z- 125 4 W = 100 J 75 50 25 Recirculation Pump E-Z Treat Mod.#600 20PSI @ Spray Manifold or 46 Ft Head @20 PSI Flow Per Spray Nozzle 1.7 GPM 8 Nozzles Per Mod.#600 Total Flow Required 13.6 GPM CAPACITY LITERS PER MINUTE 0 25 50 75 100 125 150 175 •4 i 0 10 20 30 40 50 CAPACITY GALLONS PER MINUTE 60 50 W 40 2 Z 10 0 NON-CORRO REFLECTIVE & PRC SLEEVE -- RP A4lNIIFACN9lG.�AM' �� pr R P A4INIIFACr WN0 6 ICN Of RRDI®9l 5 USER PIPE I GRADE INLET d" WELL CAP 17.Oa LAMP urasso�xn�SPEGF@ N�n1! Crwi! Du,�era�orRs.cEwwcHes oxnwr� PATENT If US 7,550,742 B? ro�anr . rucrbr��x open TIT' E: nHGLUR: M1xCHS 1�10 L MOM UV-1 U2 ❑AUL LAMP Nf H8H1'GEOMARIC QA �- LYIMNLN FLOW RATE SIZE DWG. P=. 10 GALLONS A A MINUTE —C—n. o6n Ti r LE WkWNG SCALE- 120 WEIGHT- SHEEP 1 OF 1 i 4 3 2 MINI - C L I IC Sensor: Rain This sensor halts scheduled irrigation when it detects a preset level of rain has fallen to stop water waste. KEY BENEFITS • Shuts off sprinkler system automatically when it rains • Adjustable from''/s" to 3/4" of rainfall Debris tolerant for reliable operation • Mountable to gutters using (P/N SGM) • Stainless steel guard with Mini-Clik sensor for commercial applications (P/N SG -MC) • Compatible with most irrigation controllers MINI-CLIK SG -MC OPERATING SPECIFICATIONS Height:2" stainless steel sensor guard Length: 6" enclosure for Mini-Clik • Switch rating (24 VAC): 5 A (includes Mini-Clik) • Includes 25of 20 AWG sheathed, two -conductor, UL-approved wire Height: 5Y2" • Approvals: UL, cUL, FCC, CIE, RCM Length:3" Width: 4" • Warranty period: 5 years nwarrii 4& MINI-CLIK SGM Model Description Optional gutter mount P Height: /2" MINI-CLIK Wired rain sensor Length:3" MINI-CLIK-NO Wired rain sensor with normally open switch SG -MC Stainless steel sensor guard with Mini-Clik sensor SGM Optional gutter mount MINI-CLIK INSTALLATION Visit hunterindustries.com RESIDENTIAL& COMMERCIAL IRRIGATION Built on Innovation' 135 Recordall' Disc Meters Badger Meter Lead -Free Bronze Alloy, Sizes 5/8", 5/8" x 3/4", 3/4" & 1" NSF/ANSI Standards 61 and 372 Certified Model I-P-5/8'; 5/8" x 3/4" Model 25-5/8" 5/8" x 3/4" Model 35-3/4" Model 55-1" DESCRIPTION The Recordall Disc Series meters meet or exceed the most recent revision of AWWA Standard C700 and are available in a lead-free bronze alloy. The meters comply with the lead-free provisions of the Safe Drinking Water Act, are certified to NSF/ANSI Standards 61 and 372 (Trade Designations: MLP-LL, M25-LL, M35-LL, M55-LL, M70-LL) and carry the NSF-61 mark on the housing. All components of the lead-free bronze alloy meter (housing, measuring element, seals, and so on) comprise the certified system. Applications: For use in measurement of potable cold water in residential, commercial and industrial services where flow is in one direction only. Operation: Water flows through the meter's strainer and into the measuring chamber where it causes the disc to nutate.The disc, which moves freely, nutates on its own ball, guided by a thrust roller. A drive magnet transmits the motion of the disc to a follower magnet located within the permanently sealed register.The follower magnet is connected to the register gear train. The gear train reduces the disc nutations into volume totalization units displayed on the register or encoder face. Operating Performance: The Recordall Disc Series meters meet or exceed registration accuracy for the low flow rates (95%), normal operating flow rates (100 ± 1.5%), and maximum continuous operation flow rates as specifically stated in AWWA Standard C700. Construction: Recordall Disc meter construction, which complies with ANSI/AWWA standard C700, consists of three basic components: meter housing, measuring chamber and permanently sealed register or encoder. The meter is available in a lead-free bronze alloy with externally -threaded spuds. A corrosion -resistant engineered polymer material is used for the measuring chamber. Magnetic Drive: Direct magnetic drive, through the use of high -strength magnets, provides positive, reliable and dependable register coupling for straight -reading or AMR/AMI meter reading options. Tamper -Proof Features: Unauthorized removal of the register or encoder is inhibited bythe option of a tamper detection seal wire screw,TORX® tamper -resistant seal screw or the proprietary tamper -resistant keyed seal screw. Each can be installed at the meter site or at the factory. \ 4. Model 70-1" Maintenance: Badger Meter Recordall Disc Series meters are designed and manufactured to provide long-term service with minimal maintenance. When maintenance is required, it can be performed easily either at the meter installation or at any other convenient location. To simplify maintenance, the register, measuring chamber, and strainer can be replaced without removing the meter housing from the installation. No change gears are required for accuracy calibration. Interchangeability of parts among like -sized meters and meter models also minimizes spare parts inventory investment. The built-in strainer has an effective straining area of twice the inlet size. Connections: Tailpieces/Unions for installations of meters on various pipe types and sizes, including misaligned pipes, are available as an option. Meter Spud and Connection Sizes IV ing Ind Tailpiece Model Size x Laying „B„ Nut Pipe Designation Length Bore Dia. Spud Thread Thread (NPT) 5/8" x 7-1/2" 5/8" 3/4" (5/8") 1/2" LP 5/8" x 3/4" x 7-1 /2" 5/8", 3/4" 1 " (3/4") 3/4" 5/8" x 7-1/2" 5/8" 3/4" (5/8") 1/2" 25 5/8" x 3/4" x 7-1 /2" 5/8", 3/4" 1 " (3/4") 3/4" 3/4" x 7-1/2" 3/4" 1"(3/4") 3/4" 35 3/4" x 9" 3/4" 1"(3/4") 3/4" 3/4" x 1 " x 9" 3/4" 1-1 /4" (1 ") ill 55 1" x 10-3/4" 1" 1-1/4"(1") 1" 70 1" x 10-3/4" 1" 1-1/4"(1") 1" RDM-DS-00464-EN-03 AWWA (October 2015) Product Data Sheet Recordoll ° Disc Meters, Lead -Free Bronze Alloy, Sizes 5/8'; 5/81'x 3/4'; 3/4"& I" SPECIFICATIONS Model LP Model 25 Model 35 Model 55 Model 70 (5/8" & 5/8" x 3/4") (5/8" & 5/8" x 3/4") (3/4") (111) (111) Typical Operating Range 0.5...20 gpm 0.5...25 gpm 0.75...35 gpm 1...55 gpm 1.25...70 gpm (0.11...4.5 m3/hr) (0.11...5.7 m3/hr) (0.17...7.9 m3/hr) (0.23 ... 12.5 m3/hr) (0.28...16 m3/hr) 0.25 gpm 0.25 gpm 0.375 gpm 0.5 gpm 0.75 gpm Low Flow (0.057 m3/hr) (0.057 m3/hr) (0.085 m3/hr) (0.11 m3/hr) (0.17 m3/hr) Min.95% Min.98.5% Min.97% Min.95% Min.95% Maximum Continuous 10 gpm 15 gpm 25 gpm 40 gpm 50 gpm Operation (2,3 m3/hr) (3A m3/hr) (5.7 m3/hr) (9.1 m3/hr) (11.3 m3/hr) 5/8" size: 5/8" size: Pressure Loss 2 psi @ 10 gpm 3.5 psi @ 15 gpm at Maximum (0.14 bar @ 2.3 m3/hr) (0.24 bar @ 3.4 m3/hr) 5 psi @ 25 gpm 3.4 psi @ 40 gpm 6.5 psi @ 50 gpm Continuous 5/8" x 3/4" size: 5/8" x 3/4" size: (0.37 bar @ 5.7 m3/hr) (0.23 bar @ 9.1 m3/hr) WAS bar @ 11.3 m3/hr) Operation 1.5 psi @ 10 gpm 2.8 psi @ 15 gpm (0.10 bar @ 2.3 m3/hr) (0.19 bar @ 3.4 m3/hr) Maximum Operating 80' F (26' C) Temperature Maximum Operating 150 psi (10 bar) Pressure Measuring Nutating disc, positive displacement Element Available in NL bronze and engineered polymer to fit spud threadbare diameter sizes: Meter 5/8" size: Connections 5/8" or 5/8" ON 15 mm) 3/4" ON 20 mm) 1" ON 25 mm) 1 " ON 25 mm) 3/4" ON 15 mm) 5/8" x 3/4" size: 3/4" ON 15 mm) iviHi'ERIALS Model LP (5/8" & 5/8" x 3/4") Model 25 (5/8" & 5/8" x 3/4") Model 35 (3/4") Model 55 (1") Model 70 (1") Meter Housing Lead-free bronze alloy Housing Bottom Plates Lead-free bronze alloy, cast iron, engineered polymer Cast iron, lead-free bronze alloy Measuring Chamber Engineered polymer Disc Engineered polymer Trim Stainless steel Strainer Engineered polymer Disc Spindle Engineered polymer Stainless steel Stainless steel Engineered polymer Stainless steel Magnet Ceramic Ceramic Ceramic Polymer bonded Ceramic Magnet Spindle Engineered polymer Stainless steel Stainless steel Engineered polymer Stainless steel Register Lid and Shroud Engineered polymer, bronze Page 2 RDM-DS-00464-EN-03 AWWA October 2015 Product Data Sheet DIMENSIONS Meter Size Model A Laying Length B Height Reg. C Centerline Base Width Approx. Shipping Weight 5/8"and 5/8"x 3/4"(15 mm) LP 7-1/2" (190 mm) 3.70" (94 mm) 1.26" (32 mm) 3.75" (95 mm) 3 lb (1.4 kg) 5/8" (15 mm) 25 7-1/2" (190 mm) 4-15/16" (125 mm) 1-11/16" (42 mm) 4-1/4" (108 mm) 4-1/2 lb (2 kg) 5/8" x 3/4" (15 mm) 7-1/2" (190 mm) 4-15/16" (125 mm) 1-11/16" (42 mm) 4-1/4" (108 mm) 4-1/2 Ib (2 kg) 3/4" (20 mm) 35 7-1/2" (190 mm) 5-1/4" (133 mm) 1-5/8" (41 mm) 5" (127 mm) 5-1/2 lb (2.5 kg) 3/4" (20 mm) 9" (229 mm) 5-1/4" (133 mm) 1-5/8" (41 mm) 5" (127 mm) 5-3/41b (2.6 kg) 3/4" x 1" (20 mm) 9" (229 mm) 5-1/4" (133 mm) 1-5/8" (41 mm) 5" (127 mm) 6 1 b (2.7 kg) 1" (25 mm) 55 10-3/4" (273 mm) 6" (152 mm) 2-1/32" (52 mm) 6-1/4" (159 mm) 8-3/4 lb (3.9 kg) 1" (25 mm) 70 10-3/4" (273 mm) 6-1/2" (165 mm) 2-5/16" (59 mm) 7-3/4" (197 mm) 11 -1 /2 lb (5.2 kg) REGISTERS / ENCODERS Standard —Sweep -Hand Registration The standard register is a straight -reading, permanently sealed magnetic drive register. Dirt, moisture, tampering and lens fogging problems are eliminated. The register has a six -odometer wheel totalization display, 360'test circle with center sweep hand, and flow finder to detect leaks. Register gearing is made of self-lubricating engineered polymer, which minimizes friction and provides long life. Them ulti-position register simplifies meter installation and reading. The register capacity is 10,000,000 gallons (1,000,000 ft3,100,000 ml). A Model 25 register is used in the following example: "W 1 ",,,, 9 25 Recordalr _ O ,7 Gallons 3; %6 5 4: i \.9 M �.1 1 25 Recordalr O E-,-"" o O - '-.7 Cubic Feet .3� 6 .6 4 ',i.. 0,09 25 0,01 Recordalr -� o o O ,0,07_ m_3 _ 0,03; 00000� 0,06 0,04 0,05 ,,I.. Optional —Encoders for AMR/AMI Reading Solutions Model Gallon Cubic Feet Cubic Meter LP 10 1 0.1 25 (5/8") 10 1 0.1 /0.01 25 (5/8" x 3/4") 10 1 0.1 /0.01 35 10 1 0.1 55 10 1 0.1 70 10 1 0.1 AMR/AMI solutions are available for all Recordall Disc Series meters. All reading options can be removed from the meter without disrupting water service. Badger Meter encoders provide years of reliable, accurate readings for a variety of applications and are also available pre -wired to Badger Meter approved AMR/AMI solutions. See details at www.badgermeter.com. October 2015 RDM-DS-00464-EN-03 AWWA Page 3 Recordall ° Disc Meters, Lead -Free Bronze Alloy, Sizes 5/8','5/8"x 3/4','3/4"& I" PRESSURE LOSS CHARTS Rate of Flow in Gallons per Minute Model LP 5/8" Mimi, MEN ME 15- mmm ME MIMI Qj Model LP 5/8" x 3/4" 1 10 In An 100 20 15 0 J d 10 U1 a` 5 0 Model 25 5/8" 1 10 100 A r R ?n an rn Rn 25 20 15 0 v � d 10 v 5 0 Page 4 RDM-DS-00464-EN-03 AWWA October 2015 Product Data Sheet PRESSURE LOSS CHARTS (CONTINUED) Rate of Flow in Gallons per Minute Model 25 5/8" x 3/4" 1 a r a 10 an rn 52n100 25 20 v� 15 o — J Ui N N a 10 v a` 5 Model 35 3/4" 1 1 0 J 4 h R 25 20 15 v �a v 10 a` 5 0 100 )n 4n hn An Model 55 1" 1 " 10 ^� o� 100 25 20 v_ 15 �d v 10 a 5 0 October 2015 RDM-DS-00464-EN-03 AWWA Page 5 Recordoll ° Disc Meters, Lead -Free Bronze Alloy, Sizes 5/8'; 5/8"x 3/4'; 3/4"& I" PRESSURE LOSS CHARTS (CONTINUED) Rate of Flow in Gallons per Minute 25 20 15 v � d v 10 d 5 0 ACCURACY CHARTS Model 70 1" 1 10 100 in nn tin on n A Q Model LP 5/8" 1.0 10 iy v� X5) 5 OQj t N N 0 a T - V t0 7 5 V V Q L� 10 �v 15 Model LP 5/8" x 3/4" 1.0 10 10. iy v� X5) 5 OQj t N N 0 a T - V t0 7 5 V V Q L� 10 N 15 100 100 Page 6 RDM-DS-00464-EN-03 AWWA October 2015 Product Data Sheet ACCURACY CHARTS (CONTINUED) Model 25 5/8" 1 1.0 1 .10 100 10 Nam_ 0 5 Ul Q t N V v 0 d U V - f0 7 V 5 Q 1+ 10 15 Model 25 5/8" x 3/4" 1 1.0 I I 1 10 100 m■■■■■�m� M■■■■ M MEMIM■■■■ Qj MENEM Qj Model 35 3/4" 1 1.0 10 100 October 2015 RDM-DS-00464-EN-03 AWWA Page 7 Recordoll ° Disc Meters, Lead -Free Bronze Alloy, Sizes 5/8'; 5/811x 3/4'; 3/4"& I" ACCURACY CHARTS (CONTINUED) Model 55 1" 1 1.0 10 100 0 Pv� o .m 5 Q) + v v a` 0 a T — V R 3 5 V V Q N 510 Model 70 1" 1 �1.0 �10 � �100 m LU 5 > N )•� + Ov 0 U V - r0 7 V 5 Q Uly C510 (Y 15 Making Water Visible° MAKING WATER VISIBLE and RECORDALL are registered trademarks of Badger Meter, Inc. Other trademarks appearing in this document arethe property oftheir respective entities Due to continuous research, product improvements and enhancements, Badger Meter reserves the right to change product or system specifications without notice, except to the extent an outstanding contractual obligation exists. © 2015 Badger Meter, Inc. All rights reserved. www.badgermeter.com The Americas I Badger Meter 14545 West Brown Deer Rd I PO Box 245036 1 Milwaukee, WI 53224-9536 1 800-876-3837 1 414-355-0400 Mexico I Badger Meter de las Americas, S.A. de C.V. I Pedro Luis Ogaz6n N°32 I Esq. Angelina N°24 1 Colonia Guadalupe Inn I CPO 1050 1 Mexico, OF I Mexico +52-55-5662-0882 Europe, Middle East and Africa I Badger Meter Europa GmbH I Nurtinger Str 76 172639 Neuffen I Germany I +49-7025-9208-0 Europe, Middle East Branch Office I Badger Meter Europe I PO Box 3414421 Dubai Silicon Oasis, Head Quarter Building, Wing C, Office #C209I Dubai / JAE +971-4-371 2503 Czech Republic I Badger Meter Czech Republic s.r.o. I MaHkova 2082/26 1 621 00 Brno, Czech Republic I +420-5-41420411 Slovakia I Badger Meter Slovakia s.r.o. I Racianska 109/13 1 831 02 Bratislava, Slovakia 1 +421-2-4463 83 01 Asia Pacific I Badger Meter 180 Marine Parade Rd 1 21-06 Parkway Parade I Singapore 449269 1 +65-63464836 China I Badger Meter 1 7-1202 199 Hangzhong Road I Minhang District I Shanghai I China 2011011 +86-21-5763 5412 Legacy Document Numbers: RDM-DS-00062, 63, 64, 65, 66, and 73 E� TREAT Re -Circulating Synthetic Filter uv Installation and Maintenance Guide Note: Installation Only Maintenance is in O&M Section NSF Models bearing the NSF mark are certified Class I to one or more of the following standards: NSF/ANSI40 NSF/ANSI 245 NSF/ANSI 350 ©2017 E-Z Treat 2-2017 TABLE OF CONTENTS 1.0 UV Light System Installation 2.0 UV Light System Maintenance Appendix 1: E-Z Treat UV System Configurations 3 Appendix 2: NSF Test Data C r+ r+ O� 0 C M 4 C r+ r+ O� M C M 1.0 UV Light System Installation The E-Z Set UV system is shipped as three components, the UV housing, the UV lamps and the UV lamp control panel 1. The PVC inlet and outlet on the dual bulb UV housing are reversible, allowing flow in either direction. The inlet of the single bulb configuration is the 4" hub and the outlet is the 2" hub. The inlet and outlet will accept any Schedule 40 or Schedule 80 PVC pipe or locally approved water tight pipe con- nection. The housing must be installed so the UV lamps are in the vertical position. 2. UV lamp control panel can be installed indoors or outdoors. The panel msut be secured in a manner that is consistent with local regulations. The UV lamp control requires a dedicated 120 volt power source that complies with local electrical codes. E-Z Treat UV System Call: 703.753.4770 or visit: eztreat.net 3. The UV lamps should be wiped clean in accordance with the cleaning instructions and inspected for cracks or chips prior to installing the lamps into the UV housing. 4. Once the inlet and outlet connections to the UV housing are complete, insert the UV lamp assemblies into the UV housing. Caution: UV lamp housing connections should be hand -tightened. DO NOT use wrenches, pliers, or other tools to tighten. 5. Fill UV housing with water/effluent before applying power to the UV lamps. 6. Turn power "ON" to the UV system. Table 1 NSF Testing Performance Summary Parameter Effluent, Avg BOD5 2 mg/I TSS 2 mg/I DO 3.3 mg/I Turbidity 2 NTU E. coli 2 MPN/100ml pH 6.8 — 7.5 Total Nitrogen Reduction 64% *with optional UV disinfection ©2017 E-Z Treat 1 Appendix 1 E-Z Treat UV System Configurations "WELL CAP 4" RISER PIPE TO GRADE 4"OR Z' OUTLET 4" INLET � o o � M M UV LAMP 4"RISER PIPE TO GRADE 34.00 4" WELL CAP UV LAM Call: 703.753.4770 or visit: eztreat.net Model 101 Single Lamp Model 102 Dual Lamp Model 404 Two Dual Lamps in Series ©2017 E-Z Treat C r+ r+ 0 C M M n PO Appendix 2 NSF Test Data Table 2 NSF Testing Pathogen Performance Testing Date Ul! Influent E. coli Effluent E. coli 10/21/13 980,000 < 1.1 10/23/13 687,000 < 1.0 10/25/13 1,610,000 < 1.1 10/28/13 5,840,000 < 1.1 10/30/13 1,720,000 < 1.0 11/1/13 816,000 < 1.0 11/4/13 435,000 < 1.0 11/6/13 816,000 < 1.0 11/8/13 921,000 < 1.0 11/11/13 816,000 < 1.1 11/13/13 770,000 < 1.0 11/15/13 579,000 < 1.0 11/18/13 1,990,000 3.1 11/20/13 1,050,000 1.0 11/22/13 1,550,000 1.0 11/25/13 770,000 < 1.1 11/26/13 411,000 < 1.0 11/27/13 613,000 < 1.0 12/2/13 461,000 < 1.0 12/4/13 1,300,000 < 1.0 12/11/13 411,000 < 1.0 12/13/13 517,000 < 1.0 12/16/13 687,000 < 1.1 12/18/13 387,000 < 1.0 12/20/13 548,000 1.0 12/23/13 579,000 < 1.0 12/27/13 517,000 < 1.0 12/30/13 387,000 < 1.0 1 /1 /14 260,000 < 1.0 1/3/14 1,200,000 < 1.0 1/6/14 127,000 < 1.0 1/8/14 387,000 < 1.0 1/10/14 156,000 < 1.0 1/13/14 345,000 1.0 1/15/14 210,000 2.0 1/17/14 102,000 < 1.0 1/20/14 62,700 < 1.0 1/22/14 158,000 < 1.0 1 /24/14 81,600 < 1.0 1 /27/14 161,000 < 1.0 1/29/14 326,000 < 1.0 1 /31 /14 866,000 < 1.0 2/3/14 4,880,000 < 1.0 2/5/14 461,000 4.1 2/10/14 397,000 < 1.0 2/12/14 461,000 < 1.0 2/14/14 411,000 < 1.0 Call: 703.753.4770 or visit: eztreat.net Table 3 NSF Testing Pathogen Performance Summary Median 517,000 1.0 Min 62,700 1.0 Max 5,840,000 4.1 Avg 834,474 1.0 Std Dev 1,066,222 1.0 ©2017 E-Z Treat APPENDICES Product Specifications 'Product specifications and other technical information throughout provided by Geoflow, Inc. (except for controllers). Spin -Clean Filters Description The filters are placed between the pump and dripfield to screen out any debris. The Spin -Clean type filter is most commonly used with E-Z Set Drip systems. (Other filters are available). Body — Two-piece threaded housing with O-ring seal. Molded from high heat ABS and chemical resistant glass reinforced plastic. Screen - Sintered stainless steel. Sintering is a process in which three pieces of stainless steel mesh are transformed into one; a perforated plate, 30m then 150 mesh. Screen collars molded from vinyl for long life and durability. Spin Plate - Directional spin plate is molded of PVC or fiberglass. Vortex Spin Action - Incoming water is forced through a directional nozzle plate onto the inside of the stainless steel screen. A centrifugal motion starts inside the screen chamber, throwing particles outward against the screen. Gravity, moves the debris down the screen wall to the %" flush outlet at the base of the filter. To stay clean, the filter flush valve must be partially to fully open allowing debris to flush away. This can be done with continuous or automatic flushing. Item Number Size (MPT) Max. Flow (GPM) Max. Pressure Width Height Size of flush port Area of filtration sq. inches AP4E-1 1" 15gpm 80 psi 6" 7" %" MPT 23.4 AP4E-1.5 1.5" 45gpm 100 psi 12" 15.5" 3/4" MPT 60.8 AP4E-2 2.0" 70gpm 80 psi 12" 16" 3/4" MPT 60.8 Note: Filters can be used in parallel to deliver higher flow rates and/or decrease pressure loss through the filters. Specifications: 1" Filter: The Y filter body shall be molded from glass reinforced engineering grade black plastic with a 1 inch male pipe thread (MIPT) inlet and outlet. The two piece body shall be capable of being serviced by untwisting and shall include an O-ring seal. An additional 3/4 inch MIPT outlet shall be capable of periodic flushing. The 150 mesh filter screen is all stainless steel, providing a 28.4 square inch filtration area. The screen collar shall be molded from vinyl. The 1" filter shall be E-Z Set Drip Spin -Clean filter model number AP4E-1. December 2008 1.5" Filter: The Y filter body shall be molded from glass reinforced engineering grade black plastic with a 1.5 inch male pipe thread (MIPT) inlet and outlet. The two piece body shall be capable of being serviced by unscrewing and shall include an O-ring seal. An additional 3/4" MIPT outlet shall be capable of periodic flushing. The 150 mesh filter screen is all stainless, providing a 60.8 square inch filtration area. The outer support shell shall be woven stainless steel wire, and the inner screen shall be made of stainless steel cloth. The inner and outer screens shall be soldered together. The screen collar shall be molded from vinyl. The 1 Y2" filter shall be E-Z Set Drip Spin -Clean filter model number ANE-1.5. 2" Filter: The Y filter body shall be molded from glass reinforced engineering grade black plastic with a 2 inch male pipe thread (MIPT) inlet and outlet. The two piece body shall be capable of being serviced by unscrewing and shall include an O-ring seal. An additional 3/4" MIPT outlet shall be capable of periodic flushing. The 150 mesh filter screen is all stainless, providing a 60.8 square inch filtration area. The outer support shell shall be woven stainless steel wire, and the inner screen shall be made of stainless steel cloth. The inner and outer screens shall be soldered together. The screen collar shall be molded from vinyl. The 2" filter shall be E-Z Set Drip Spin -Clean filter model number ANE-2. December 2008 3/4" Vortex Filter 16 p �12 y C. w ,yy 8 Q a F 4 0 1 2 3 4 5 6 7 8 9 10 11 12 Flow - GPM 1 Vortex Filter 20 18 H16 �14 �12 Q 10 a 8 6 4 21 5 10 15 20 Flow - GPM 1.5" Vortex Filter 12 10 8 a 6 w y 4 Q ° 2 F 0 10 20 30 40 5 0 Flow -GPM 2" Vortex Filter 8 6 p 4 �a w w ,yy Q a 2 � y 0 10 20 30 40 50 60 70 80 90 Flow - GPM Pressure loss charts for Spin -Clean filters December 2008 1/2 Gallon Pressure Compensating Dripline Standard products: WFPC16-2-24 E-Z Set Drip PC 24"/.53gph WFPC16-2-18 E-Z Set Drip PC 18"/.53gph WFPC16-2-12 E-Z Set Drip PC 12"/.53gph WFPC16-2-6 E-Z Set Drip PC 6"/.53gph (Alternative spacing, flow rates and diameters available upon request) E-Z Set Drip PC Specification: A. Dripline shall be nominal sized one-half inch linear low density polyethylene E-Z Set Drip model WFPC16-2-24 (or-18;-12; -6) by E-Z Set Dip. Dripline shall have turbulent flow drip emitters regularly spaced on 24" (or 18"; 12"; 6") centers, bonded to the inside wall, capable of a nominal discharge rate of .53gph under pressure conditions of 7-60psi. All emitters shall be molded from virgin polyethylene resin. The pressure compensating emitters shall incorporate a silicone rubber diaphragm. The dripline shall have and outside diameter (O.D.) of approximately 0.64 inches and an inside diameter (I.D.) of approximately 0.55 inches. B. The dripline shall be equipped with an anti -bacterial inside lining to prevent bacteria from growing within the dripline. The anti -bacterial shall be Ultra -Fresh TA° DM-50. The dripline shall consist of three layers; the inside layer shall contain bactericide protection, the middle layer shall be black and the outside layer shall be purple striped for easy identification. C. The dripline shall be protected from root intrusion through the use of nano-ROOTGUARDO. The drip emitters shall be impregnated with Treflan0 to inhibit root intrusion for a minimum period of fifteen years and shall be guaranteed by the manufacturer to inhibit root intrusion for this period. Flow Rate vs. Pressure Pressure Head All WASTEFLOW PC 1/2 ph dripline 7-60 psi 16 —139 ft. 0.53 gph Maximum Length of Run vs. Pressure Allows a minimum of 10 psi in the line. Recommended operatingpressure 10-45 psi Pressure Psi ft. Emitter Spacing 6" 12" 18" 24" 10 psi 23.10 ft 15 psi 34.65 ft. 174' 260' 321' 20 psi 46.20 ft. 120' 229' 330' 424' 25 psi 57.75 ft. 260' 377' 478' 30 psi 69.30 ft. 150' 288' 415' 535' 35 psi 80.85 ft. 313' 448' 576' 40 psi 92.40 ft 172' 330' 475' 612' 45 psi 103.95 ft 354' 501' 651' 50 psi 115.5 ft. 363' 523' 675' 55 psi 127.05 ft. 377' 544' 700' 60 psi 138.6 ft. 403' 563' 727' Kd = 2.070 December 2008 Wasteflow PC 0.53 gph. Pressure Loss vs. Length of Run 60 50 a 40 0 a 30 20 10 a 0 0 100 200 300 400 500 600 700 800 Length(ft) 1 Gallon Pressure Compensating Dripline Standard products: WFPC16-4-24 E-Z Set Drip PC 24"/1.02gph WFPC16-4-18 E-Z Set Drip PC 18"/1.02gph WFPC16-4-12 E-Z Set Drip PC 12"/1.02gph WFPC16-4-6 E-Z Set Drip PC 6"/1.02gph (Alternative spacing, flow rates and diameters available upon request) E-Z Set Drip PC Specification: A. Dripline shall be nominal sized one-half inch linear low density polyethylene E-Z Set Drip model WFPC16-4-24 (or -18; -12; -6) by E-Z Set Dip. Dripline shall have turbulent flow drip emitters regularly spaced on 24" (or 18"; 12"; 6") centers, bonded to the inside wall, capable of a nominal discharge rate of 1.02gph under pressure conditions of 7-60psi. All emitters shall be molded from virgin polyethylene resin. The pressure compensating emitters shall incorporate a silicone rubber diaphragm. The dripline shall have and outside diameter (O.D.) of approximately 0.64 inches and an inside diameter (I.D.) of approximately 0.55 inches. B. The dripline shall be equipped with an anti -bacterial inside lining to prevent bacteria from growing within the dripline. The anti -bacterial shall be Ultra -Fresh TA° DM-50. The dripline shall consist of three layers; the inside layer shall contain bactericide protection, the middle layer shall be black and the outside layer shall be purple striped for easy identification. C. The dripline shall be protected from root intrusion through the use of nano-ROOTGUARD®. The drip emitters shall be impregnated with Treflan® to inhibit root intrusion for a minimum period of fifteen years and shall be guaranteed by the manufacturer to inhibit root intrusion for this period. December 2008 Flow Rate vs. Pressure Pressure Head All WASTEFLOW PC 1 gph dripline 7-60 psi 16 —139 ft. 1.02 gph Maximum Length of Run vs. Pressure Allows a minimum of 10 psi in the line. Recommended operating pressure 10-45 psi Wress"ure psi ft. Emitter Spacing 6" 12" 18" 24" 10 psi 23.10 ft 50' 95' 140' 175' 15 psi 34.65 ft. 63' 115' 172' 211' 20 psi 46.20 ft. 74' 146' 210' 265' 25 psi 57.75 ft. 88' 171' 242' 315' 30 psi 69.30 ft. 94' 180' 266' 335' 35 psi 80.85 ft. 103' 199' 287' 379' 40 psi 92.40 ft 110' 211' 305' 385' 45 psi 103.95 ft 116' 222' 321' 429' 50 psi 115.5 ft. 232 334' 431' 55 psi 127.05 ft. 240' 347' 449' 60 psi 138.6 ft. 249' 360' 465' Wasteflow PC 1.02 gph. Pressure Loss vs. Length of Run e0 70 so m 50 0 .a 40 30 m m w 20 C 10 0 0 50 100 150 200 250 300 350 400 450 500 Length (ft) December 2008 I Gallon Classic Dripline (non -pressure compensating) Standard products: WF16-4-24 E-Z Set Drip 24" WF16-4-18 E-Z Set Drip 18" WF16-4-12 E-Z Set Drip 12" WF16-4-9 E-Z Set Drip 9" (Alternative spacing, flow rates and diameters available upon request) E-Z Set Drip Classic Specification: A. Dripline shall be nominal sized one-half inch linear low density polyethylene E-Z Set Drip with turbulent flow emitters. E-Z Set Drip model WF16-4-24 (or -18; -12; -9) by E-Z Set Dip. Dripline shall have turbulent flow drip emitters regularly spaced on 24" (or 18"; 12"; 9") centers, bonded to the inside wall, capable of a nominal discharge rate of 1.Ogph at 15psi. All emitters shall be molded from virgin polyethylene resin. The dripline shall have and outside diameter (O.D.) of approximately 0.64 inches and an inside diameter (I.D.) of approximately 0.55 inches. The drip emitter flow passage shall be 0.053" x 0.053" square. B. The dripline shall be equipped with an anti -bacterial inside lining to prevent bacteria from growing within the dripline. The anti -bacterial shall be Ultra -Fresh TA° DM-50. The dripline shall consist of three layers; the inside layer shall contain bactericide protection, the middle layer shall be black and the outside layer shall be purple striped for easy identification. C. The dripline shall be protected from root intrusion through the use of nano-ROOTGUARDO. The drip emitters shall be impregnated with Treflan0 to inhibit root intrusion for a minimum period of fifteen years and shall be guaranteed by the manufacturer to inhibit root intrusion for this period. Pressur si ad All WASTEFLOW Classic Dripline 10 p112�3.10 ft 0.81 gph 15 p.65 ft. 1.00 gph 20 psi46.20 ft. 1.16gph 25 psi 57.75 ft. 1.31 gph 30 psi 69.30 ft. 1.44 gph 35 psi 80.85 ft. 1.57 gph 40 psi 92.40 ft 1.68 gph 45 psi 103.95 ft 1.80 gph Maximum Length of Run vs. Pressure Flow variation +/- 5%. Pressure Head psi ft. Emitter Spacing 24" 18" 12" 10 psi 1 23.10 ft 170' 165' 100' 15 psi 34.65 ft. 170' 165' 100, 20 psi 46.20 ft. 170' 165' 100, 25 psi 57.75 ft. 170' 165' 100, 30 psi 69.30 ft. 170' 165' 100, 35 psi 80.85 ft. 170' 165' 100, 40 psi 92.40 ft 170' 165' 100, 45 psi 103.95 ft 170' 165' 100, December 2008 Wasteflow Classic 1 gph. Pressure Loss vs. Length of Run S 6 m 5 0 a q y 3 y 2 0 0 50 100 150 200 250 300 Length(R) Kd=0.9 Cv<.05 OR I December 2008 Solenoid Valves Standard products: SLV-100-NC 1" Normally Closed Valve SLV-100-NO 1" Normally Open Valve SLV-150-NC 1.5" Normally Closed Valve SLV-150-NO 1.5" Normally Open Valve SLV-200-NC 2" Normaly Closed Valve SLV-200-NO 2" Normally Open Valve (Other valves are also available). Solenoid valve specification: A. The Solenoid Valve is electrically operated and used as zone valves, to flush the dripfield and Vortex filter and to "quick fill' the drip system. When used for zones and flushing it is normally closed and when used for "quick fill' it is normally open. B. The valve shall have a dual ported diaphragm. In operation, the diaphragm ports constantly flex, inhibiting sand, silt and debris from blocking the valve action. C. The porting design permits equal pressure on both sides of the diaphragm wall, regardless of line pressure when valve is not operating, and nearly equal pressure across the wall when operating. This feature prevents diaphragm "stretching", a common cause of valve failure in valves that are ported through the seat. D. The DW Valve diaphragm shall be made of nylon fabric reinforced Buna-N rubber; a grooved rib interlocks with cover and body to prevent leakage. E. Nylon exhaust orifice shall be non -corrosive and have an opening sized larger than the diaphragm ports so that any pieces of sand or silt passing through the diaphragm will not be trapped beneath the solenoid actuator. F. The solenoid shall be constructed of molded epoxy resin having no carbon steel components exposed thereby eliminating possible external corrosion and deterioration. The solenoid shall be completely waterproof, with an 0-ring seal, and comply with NEC Class II circuit requirements for 24VAC operation. G. The actuator shall be Teflon coated stainless steel and brass with a molded -in place rubber exhaust port seal; a stainless steel spring assures positive seating. H. The valve shall have a high strength plastic glass -filled body and cover designed to operate in heavy duty commercial applications. The valve shall have stainless steel cover bolts or screws for service access. There shall be a shock cone on diaphragm seat to eliminate water hammer in all except extreme cases. The valve shall have a flow control stem for throttling the valve from full open to close positions. K. The valve shall have an easy -to use, hand operated manual bleed lever control that bleeds valve to downstream; has stops for open and closed positions. The solenoid valves shall be model number SLV-_ _ _ - _ _ by E-Z Set Drip. December 2008 Electrical data: Wiring requires a single lead from the controller to each solenoid valve, plus a common neutral to all solenoids. (Type OF wire, UL listed, is typically used). Standard 24V ACV (50-601-1z) Current Holding 0.24A 5.76 VA Current Inrush 0.46A 11.04VA Maximum allowable loss 4.8 Volts for the 24V AC system. WIRE GAUGE RESISTANCE (OHM/1000') MAXIMUM LENGTH WIRE 18 6.39 800' 16 4.02 1,275' 14 2.58 2,000' 12 1.62 3,200' 10 1.02 5,100' 8 0.641 8,000' 6 0.403 12,750' 4 0.253 20,500' 2 0.158 32,500' 14 12 10 a O 8 w c Cn en w L+" d 0 2 U Solenoid Valve Flow vs pressure Chart 5„ 00010 20 40 60 80 100 200 400 600 800 FLOW RATE - GPM December 2008 Model No. Size FPT Length Height Width Weight PSI Ran e SLV-100 1" 4.3" 4.5" 3.0" 12.5 oz 10-150 SLV-150 1.5" 6.3" 7.2" 5.0" 2.2lbs. 10-150 SLV-200 2" 9.0" 7.4" 5.4" 2.97lbs. 7-140 FPT Pressure rating ANSI: Class 125 ISO: PN 10 Max Temperature 180 degrees F December 2008 AIR VENTS 1" Air Vacuum Relief Valve Specification The air vacuum relief valve provides instant and continuous vacuum relief and non -continuous air relief. Both the body and the removable dirt cover shall be constructed of molded plastic. The body and the dirt cover shall be connected with a 3/4 inch hose thread. The ball shall be constructed of low density plastic and the internal seat shall be constructed of vinyl. The air vacuum relief valve shall seal at 5 psi. Inlet size shall be a 1 inch male pipe thread. The air vent shall be E-Z Set item number AVBK-1. Note: Maximum flow of 50 gpm per 1" air vacuum relief. PRESSURE REGULATORS ITEM NUMBER OUTLET PRESSURE FLOW RANGE MAX. INLET PRESSURES INLET SIZE OUTLET SIZE PR-20MF 20 psi 2 - 20 gpm 150 psi 1" FIPT 1" FIPT PR-20HF 20 psi 10 - 32 gpm 100 psi 1.25" FIPT 1" FIPT PR-20XF 20 psi 20-90 gpm 90 psi 3" I.D. socket 3" I.D. socket PR-30MF 30 psi 2-20 gpm 150 psi 1" FIPT 1" FIPT PR-30HF 30 psi 10-32 gpm 100 psi 1.25" FIPT 1" FIPT PR-30XF 30 psi 20-90 gpm 100 psi 3" I.D. socket 3" I.D. socket PR-40MF 40 psi 2-20 pgm 150 psi 1" FIPT 1" FIPT PR-40HF 40 psi 10-32 gpm 100 psi 1.25" FIPT 1" FIPT PR-40XF 40 psi 20-90 gpm 125 psi 3" I.D. socket 3" I.D. socket PR-50MF 50 psi 2 - 20 gpm 150 psi 1" FIPT 1" FIPT PR-50HF 50 psi 10 - 32 gpm 100 psi 1.25" FIPT 1" FIPT PR-50XF 50 psi 20-90 gpm 125 psi 3" I.D. socket 3" I.D. socket Pressure Regulator Specification Pressure regulator shall be designed to handle steady inlet pressures of psi and withstand severe water hammer extremes. It shall handle flow rates between _ and _ gpm. Flow restriction shall be negligible until the factory preset operating pressure of _psi is reached. Regulating accuracy shall be within +/- 6%. Inlet size shall be . Outlet size shall be . Pressure regulator shall be constructed of high impact engineering grade thermoplastics for strength and durability. Regulation shall be accomplished by a fixed stainless steel compression spring which shall be enclosed in a chamber separate from the normal water passage. Each regulator shall be water tested for accuracy. Preset pressure regulators shall be E-Z Set model number PR - December 2008 DRIP FITTINGS Dripline Fittings The lockslip fittings shall be molded of high grade plastic. The drip tubing is pushed over a barb end, then secured with a locking nut. The fitting has the ability to be removed and reapplied with the locking nut. Lockslip Adapters. The Lockslip adapter is used to connect the dripline to a PVC fitting. The adapter glues into a 3/4 inch slip fitting. The lockslip adapter shall be E-Z Set Drip part number LSLIP-600. b. Lockslip Couplings. The coupling is used to connect two pieces of dripline together. The lockslip coupling shall be E-Z Set Drip part number LC-600. c. Lockslip Elbows : The elbow is used to connect dripline to dripline in a 90 degree configuration. The lockslip elbow shall be E-Z Set Drip part number LEL-600. December 2008 E-Z Set Drip Guidelines Dripline for Wastewater December 2008 DIAGRAM 1: TYPICAL DRIPFIELD LAYOUTSYSTEM COMPONENTS: ..................................................... 3 SYSTEM COMPONENTS: ........................................................................................................................................ 4 1 . E-Z SET DRIPLINE................................................................................................................................................4 2. CONTROLLERS......................................................................................................................................................5 3. Pumps..................................................................................................................................................................5 4. FILTERS................................................................................................................................................................5 5. SUPPLY MANIFOLD...............................................................................................................................................5 6. RETURN MANIFOLD..............................................................................................................................................5 7. PRESSURE REGULATOR.......................................................................................................................................5 8. AIR VACUUM BREAKER........................................................................................................................................6 9. FILTER FLUSH VALVES.........................................................................................................................................6 10. FIELD FLUSH VALVES.........................................................................................................................................6 11. ZONE VALVES....................................................................................................................................................6 12. QUICK FILL VALVES............................................................................................................................................6 13. HEADWORKS.....................................................................................................................................................6 DESIGN PARAMETERS...........................................................................................................................................6 1. SELECT AREA........................................................................................................................................................6 2. WATER QUALITY..................................................................................................................................................7 3. SOIL APPLICATION DESIGN..................................................................................................................................7 4. DEPTH AND SPACING...........................................................................................................................................7 5. SOIL LAYERS AND TYPES.....................................................................................................................................7 6. ADDING FILL TO THE DISPERSAL FIELD...............................................................................................................7 7. MULTIPLE ZONES.................................................................................................................................................7 8. WATER APPLICATION FORMULA..........................................................................................................................8 WORKSHEET - DISPERSAL FIELD DESIGN FOR SINGLE ZONE SYSTEM.................................................................9 WORKSHEET- SELECT PUMP...............................................................................................................................I I SYSTEM INSTALLATION......................................................................................................................................12 INSTALLATION GUIDELINES.....................................................................................................................................12 InstallingLockslip fittings............................................................................................................................13 Valve Installation and Operation.................................................................................................................13 SUBSURFACE DRIP INSTALLATION METHODS.........................................................................................................14 WINTERIZATION.......................................................................................................................................................15 AS BUILT SYSTEM DESCRIPTION............................................................................................................................16 SYSTEM MAINTENANCE......................................................................................................................................18 ROUTINEAND PREVENTATIVE MAINTENANCE........................................................................................................18 HOME OWNERS GUIDE FOR CARE AND MAINTENANCE OF DRIP DISPERSAL FIELD............................................19 APPENDICES - Product Specifications December 2008 Page 1 INTRODUCTION E-Z Set Drip systems disperse effluent through '/2" pressurized pipes. They are designed using the grid concept, with supply and flush manifolds at the end of each dripline, creating a closed loop system. The grid design provides a complete and even wetted area. Drip is a highly efficient method to dispose of effluent. Small, precise amounts of water are uniformly applied to the soil from multiple points. The main advantages of the E-Z Set Drip system are: • Can be used under difficult circumstances, including high water tables, tight soils, rocky terrain, steep slopes, around existing buildings, trees, or other vegetation. • The system does not require gravel. It is easy to install directly into indigenous soil and fill material. • Disposal of water is maximized by means of evapotranspiration. • Uptake of nutrients by plants is increased. • Fifteen year warranty for root intrusion, workmanship, and materials. • Non -intrusive. • Easily automated. NOTES: • These guidelines are for secondary treated effluent. • Please follow your State and local regulations for onsite wastewater dispersal. This document is intended to be a guide, and should be used only as a supplement to your local regulations. • With the exception of controllers, product specifications and technical information throughout provided by Geoflow, Inc. December 2008 Page 2 DIAGRAM 1 : TYPICAL DRIPFIELD LAYOUT from JIM December 2008 Page 3 SYSTEM COMPONENTS: See Diagram 1 on page 3. A typical drip system installation will consist of the elements listed below: (See appendices for product specifications.) 1. E-Z SET DRIPLINE The dripline disperses the effluent into the field area. The dripline is connected to the supply and return manifolds with Lockslip fittings. Typical spacing between each dripline and between drip emitters is 24" on center. The pipe has no joints that may pull apart during installation and is ideal for tractor mounted burying machines. It is sold in 500-ft rolls. Rolls of alternative length, diameter, and emitter spacing may be special ordered. Dripline features: a) NANO-ROOTGUARD®' The risk of root intrusion with an emitter slowly releasing effluent directly into the soil is well known to anyone who has observed a leaking sewer pipe. All E-Z Set drip emitters are guaranteed to be protected against root intrusion with nano-RoOTGUARD. This patented process fuses the root -growth inhibitor, TREFLAN®z into each drip emitter during manufacturing. Treflan is registered with the United States EPA for this application. The nano-ROOTGUARD technology slowly releases Treflan in minute quantities to prevent root cells from dividing and growing into the barrier zone. It is chemically degradable, non -systemic, and virtually insoluble in water (0.3 ppm). Nano- ROOTGUARD carries a 15 year warranty against root intrusion. b) Bactericide protection E-Z Set Drip has an inner lining impregnated with a bactericide, Ultra Fresh TAd3 DM-50, to inhibit bacterial growth on the walls of the tubing and in the emitter. This minimizes the velocity required to flush E-Z SET Dripline. The velocity only needs to remove fine particles from the dripline; it is not necessary to scour growth off the inside wall of the tubing. When a minimum flushing velocity is requested, 0.5 feet per second is used with E-Z Set Dripline to get the settled particles at the bottom of the pipe back into suspension. (This equates to 0.375 gpm per drip lateral.) Check your local regulations for information on flushing velocity requirements. c) Turbulent Flow Path E-Z SET Drip emitters are pre -inserted in the tubing 6", 9", 12", 18", or 24" apart, with 24" being utilized most often. Angles in the emitter flow path are designed to cause turbulence in order to equalize flow between emitters and keep the emitters clean. Nano-ROOTGUARD is a registered trademark of A.I.Innovations 2 Treflan is a registered trademark of Dow Agro Sciences 3 Ultra -Fresh is a registered Trademark of Thomson Research Associates. December 2008 Page 4 d) E-Z SET Classic and E-Z SET PC Dripline Both Classic and PC have turbulent flow path emitters with nano- ��;_; ROOTGUARD and bactericide protection. The PC has the added element of a silicone rubber diaphragm that moves up and down over the emitter outlet to equalize flow regardless of pressure between 7 and 60 psi. To ensure a long life, the recommended operating range is 10 to 45 psi. For Classic, the flow rate delivered by the emitter is a function of the pressure at the emitter. The Classic dripline has the advantage of no AliIIIIIIISIGAN moving parts or rubber that may degrade over time. Also, the flow during a dosing cycle and flushing cycle are very similar with the Classic because when the flush valve is opened, the pressure is reduced, causing the flow from the emitters to decline. PC driplines require higher flow for flushing than dosing, as the emitter flow rate does not go down during the flushing cycle. 2. CONTROLLERS Controllers are used for time dosing and time flushing of the filter and dripfield. E-Z Set Drip controllers typically include a programmable logic control interface for field modifications. They can be used on systems ranging in size from one to as many zones as is needed. All controllers include a surge arrestor, elapsed time meter and counter for each pump. Custom panels are available as needed. 3. Pumps Dripfields depend on pumps to dose effluent under pressure to the field. These must be sized according to flow and pressure requirements. E-Z Set provides drip pumps for all E-Z Set drip systems. 4. FILTERS E-Z Set Drip systems use a variety of filters. Typically, a Spin -Clean screen filter is used; however; Vac- Kleen and disc filters can also be used, depending on application. 5. SUPPLY MANIFOLD This carries the water from the dosing tank to the dispersal area. Rigid PVC is usually used, and should be designed to gravity drain back to the pump tank in freezing conditions unless manifolds are buried below frost and protected from freezing. The velocity in the manifold should be between 2 feet per second and 5 feet per second (fps). Refer to PVC pipe sizing chart in the appendix to determine the best diameter for your application. 6. RETURN MANIFOLD In order to help clean the system periodically, the ends of the driplines are connected together into a common return line, most often made of rigid PVC. This line will help equalize pressures in the system. Flushing should be done frequently during the installation period. The return manifold should be installed to gravity drain back to the pump or pretreatment tank in freezing climates, unless it is buried below frost and protected from freezing. 7. PRESSURE REGULATOR Pressure regulators fix the inlet pressure at a given rate. Under normal operating conditions, pressure in most systems should be 10 psi to 45 psi. December 2008 Page 5 8. AIR VACUUM BREAKER Air vacuum breakers are installed at the high points to keep soil from being sucked into the emitters due to back siphoning or backpressure. This is an absolute necessity with underground drip systems. They are also used for proper draining of the supply and return manifolds in freezing conditions, when manifolds are designed to gravity drain back. Air vents are located in field boxes just below grade. One is used on the high end of the supply manifold and one on the high point of the return manifold. Additional air vents may be required in undulating terrain. Freezing conditions require the air vacuum breaker be protected with insulation. J. FILTER FLUSH VALVES The filter flush valve can be manual or electronic, and is used to flush debris from the filter (When electronic, these valves are normally closed solenoid valves). If manual, it should be left cracked open slightly to flush continuously (certain States and/or filters may require automated electronic flushing). 10. FIELD FLUSH VALVES The field flush valve can be manual or electronic, and is used to flush fine particles out of the drip system (when electronic, these valves are normally closed solenoid valves). If manual, it should be opened for full flushing at least every six months and left cracked open slightly to flush continuously and/or provide for drainage of the flush line in freezing conditions (certain states may require automated electronic flushing). 11. ZONE VALVES Used to divide single dispersal fields into multiple zones, these can be hydraulically activated index valves or solenoid valves (when solenoid valves are used, they are normally closed valves). 12. QUICK FILL VALVES The quick fill valve is used to rapidly fill large zones with long lengths of run, and to equalize distribution on steep slopes. These valves are normally open solenoid valves, and are plumbed at some point between the supply and return line, depending on design (all systems will not necessarily have a quick fill valve). 13. HEADWORKS The Headworks is a pre -assembled unit including the filter, flush valves, and pressure gauge in a field box. It is installed between the pump and the field, typically below grade. The Headworks should be insulated in freezing climates. DESIGN PARAMETERS 1. SELECT AREA Select the area with careful consideration to the soil, the terrain and your State and County regulations. Be sure the field is in a good landscape position - not in a flood plain or bottom of a slope where excessive water may collect after rain. Surface water and gutters should be directed away from the proposed field area. December 2008 Page 6 2. WATER QUALITY Determine the quality of the water entering the system (it should be at least secondary effluent quality). Be aware of water conditions intrinsic to the area. If iron, manganese, or other conditions that may affect treatment or dispersal are prevalent, be sure to eliminate upstream of the wastewater treatment plant or drip system with ozone, ultraviolet or other methods. 3. SOIL APPLICATION DESIGN Refer to your State and local codes for soil absorption rates. 4. DEPTH AND SPACING Driplines are usually spaced 2 feet apart with 2 feet between emitters so that each emitter supplies a 4 sq. ft area. These lines are typically placed at depths of 6-10 inches below the surface (some states allow surface application). Closer and/or further spacing can be used based on site specific conditions. Using closer spacing of lines will not reduce the minimum size of the field area and using increased spacing of lines will not reduce the minimum number of feet of dripline required. Refer to your State and local codes for depth of bury and spacing requirements. 5. SOIL LAYERS AND TYPES The topsoil or surface soil is generally the most biologically active and permeable soil for accepting water. The topsoil also dries the fastest after a rainfall event, and will maintain the highest water absorption rate. The quality and homogeneity of the soil may present a problem. If the soil was not properly prepared and there are pieces of construction debris, rocks and non -uniform soils, it is very difficult to obtain uniform water spread. In many cases, particularly if the soil is compacted, soil properties can be greatly improved by ripping and disking (check your local regulations prior to disturbing any proposed drainfield area). 6. ADDING FILL TO THE DISPERSAL FIELD Some dispersal sites require that additional soil be brought in to increase separation distance from a restrictive layer. Placing drip lines in selected fill material above the natural soil provides an aerated zone for treatment However, dispersal still occurs in the natural soil, and the field size must be based on the hydraulic capability of the natural soil to prevent hydraulic overload. Any time fill material is to be used, the area to receive the fill should have all organic material removed or it must be incorporated into the natural soil to prevent an organic layer from forming and restricting downward water movement. The fill material should be applied in shallow layers with the first 4 to 6 inches incorporated into the natural soil to prevent an abrupt textural interface. Continue this process until all fill has been incorporated. Check your local regulations regarding the use of fill material. 7. MULTIPLE ZONES Drip dispersal fields can be divided into multiple zones or subzones with solenoid valves or index valves for the following reasons: a. Steep slopes with a risk of low head drainage can be subdivided to distribute the water at system shut -down more uniformly in the field. b. Smaller zones reduce the required flow per minute which consequently reduces the size of the pump, valves, filters, supply and return lines. c. The dispersal field is located in multiple areas on the property. December 2008 Page 7 On multiple zones, a single Headworks unit can be used for filtration and flushing by placing zone valves downstream of the Headworks box. All zones would require a check valve on the individual flush lines upstream of each line joining a common flush line (to keep flush water from one zone entering any other zone during the flush cycle). 8. WATER APPLICATION FORMULA To determine the rate of application for various designs, use the following formula: Water application (inches per hour) = (231 x (emitter flow rate gph)) / ((Emitter spacing inches) x (dripline spacing inches)) Example: Drppline with 1.3 gph flow rate emitters spaced 24" apart and dripline spaced 24" apart. Water application = (231x1.3)/(24x24) = 0.52 inches of water per hour. December 2008 Page 8 WORKSHEET The following worksheet is available on an Excel spreadsheet. If you would like a copy, please phone 703-408-2916, or email mstidham (o)ersettank.com. To calculate the area required for your drip dispersal system you must know: 1. The quantity of effluent to be disposed of (in gallons per day), and 2. The soil acceptance rate (i.e. gallons per day per square foot). WORKSHEET - DISPERSAL FIELD DESIGN FOR SINGLE ZONE SYSTEM Worksheet Formula A) Quantity of effluent to be dispersed per day Based on State regulations, gallons per day, gpd (typically GPD/bedroom x number of bedrooms). B) Hydraulic loading rate Based on soil analysis and State regulations, loading rate (gal/day/sq. ft.) (gallons per day per square foot). C) Determine the total area required Divide gpd by loading rate. (A)/(B) square ft D) Choose the spacing between each dripline and Standard spacing is 2 ft. each emitter i) ft. between driplines ii) ft. between emitters E) How many linear feet of dripline in the total (Area / 2 ) for 2ft. line spacing. (C)/2.0 or area? (Area / 1) for 1 ft. line spacing. (C)/1.0 or ft. (Area / 0.5) for 6" line spacing. (C)/0.5 F) Calculate the number of emitters (Linear ft. of dripline / 2) for 2 ft emitter spacing. emitters (E)/2 or (Linear ft. of dripline / 1) for 1 ft emitter spacing. (E)/1 or (Linear ft. of dripline /0.5) for 6" emitter spacing (E)/0.5 December 2008 Page 9 G) Choose PC or Classic dripline See appendices for dripline specifications. Classic dripline or PC dripline H) Determine dripfield pressure Standard pressure is 20 psi. psi See appendices for dripline specifications. 1) Determine feet of head required at dripfield Multiply pressure above by 2.31 to get head ft. of head required. (H) x 2.31 J) What is the flow rate per emitter? PC — either 0.53 or 1.029ph gph / emitter Classic — see flow rates in appendices. K) Determine total flow for the area Number of emitters multiplied by the emitter flow gph rate at the design pressure. Gph = (F)x(J) gpm Gpm = gph/60 L) Select pipe diameters for manifolds and sub Based on total flow from (K) above, in gpm. See mains schedule 40 friction loss charts in appendices. inches M) Select size of Headworks Based on total flow from (K) above, in gpm. See flow and head loss for each filter in appendices. Headworks N) Sketch a layout of the driplines in the See Maximum Length of Run table in appendices. dispersal plot to make sure that the maximum lateral length of each line is not exceeded. December 2008 Page 10 WVKK,Fitt I-,tLtC: I PUMP (I -OR PURPOSE OF ESTIMATE VNLY! Worksheet O) Minimum pump capacity P) Header pipe size Q) Pressure loss in 100 ft. of pipe R) Friction head in 100 ft. of pipe S) Static head i) Height from pump to tank outlet. ii) Elevation increase or decrease T) Total static head U) Friction head i) Equivalent length of fittings ii) Distance from pump to field and back to tank. iii) Total equivalent length of pipe. iv) Total effective feet. v) Head required at dripfield vi) Head loss through filter or Headworks vii) Head loss through zone valves V) Minimum Total friction head W) Minimum Total Dynamic Head X) Minimum pump capacity NOTE: Some States and Counties require additional flow for flushing. Please check your local regulations. If you need help on flushing design, see E-Z Set Drip Excel worksheet or call E-Z Set at 703-408-2916. gpm inches psi ft. of head Formula From (K) above From (L) above Refer to PVC charts in appendices. Multiply psi from (Q) above by 2.31 ft. Number of ft. ft. Height changes from pump to dripfield. ft. Add (Si) + (Sii) ft. Estimate loss through fittings — usually inconsequential for small systems. ft. Measure length of manifolds ft. Add (Ui) + (Uii) ft. (Uiii) / 100 x (R) ft See line (1) in Worksheet above. ft See pressure loss for filters in appendices or see pressure loss for Headworks box in appendices. Multiply pressure by 2.31 to get head loss. ft See pressure loss charts in appendices. Multiply pressure loss in psi by 2.31 to get head loss. ft Add (Uiv) + (Uv) + (Uvi) + (Uvii) ft Add (T) + (V) qpm From line item (0) above December 2008 Page 11 SYSTEM INSTALLATION INSTALLATION GUIDELINES Handle your dripline and components with care. Nano-ROOTGUARD® is temperature sensitive. To assure a long life, store the drip line out of direct sunlight in a cool place. Check and collect all tags from dripline rolls. Verify the flow rate and model numbers match what is specified on the plan. Keep all tags in job file for future reference. a) All dripfield construction shall be done in accordance with Local rules and regulations. b) Fence/tape off entire dripfield prior to any construction. c) System is not to be installed when ground is wet or frozen. d) Divert all downspouts and surface waters away from dripfield and tanks. e) Excavation, filling and grading should have been finished before installation of the subsurface drip system. f) Be sure you have everything required for the installation before opening trenches. Pre -assemble as many sets of components as practical above ground and in a comfortable place. g) The soil should be moist but still should allow the proper operation of the installation equipment and not cause smearing in the trenches. The soil surface should be dry so that the installation equipment maintains traction. h) Install a watertight dosing tank according to E-Z Set Drip specifications. i) Determine the proper size for the supply and return manifolds. (See Worksheet line L.) j) Install the PVC supply line from the dosing tank. (Please refer to your State guidelines for depth of burial.) k) Paint a line or flag between the two remaining corners at the opposite end of field where loops and/or return trench will be located. 1) Install the dripline from the supply line trench to the painted/flagged line, as specified per design/local code. Upon reaching the painted line/flags, pull the plow out of the ground and cut the dripline 1' above the ground. Tape the end of the dripline to prevent debris from entering. Continue this process until the required footage of pipe is installed. Take care not to get dirt into the lines. m) Install the supply header with tees lined up at each dripline. Hook up the driplines to the supply header. (Do not glue the dripline.) n) Install the pre -assembled Headworks between the field and the pump tank on the supply line. *Insulate the box in freezing conditions. o) If using a pressure regulator, install it downstream of the Headworks at the dispersal field, on the supply line. Although the pressure regulator can be buried directly into the soil, it is preferable to install it inside a small valve box for easy access with unions on either side. *Insulate the box in freezing conditions. p) Install the floats in the dosing tank and wire to the control panel. The control panel should be programmed to pump no more than the design flow, do not set to match the treatment capacity. q) Install the pump. Fill the dosing tank with fresh water and turn on the pump. Check for flow out the ends of all of the driplines. Let the pump run for 5-10 minutes to flush out any dirt. Shut off the pump and tape the ends of the lines. r) Dig along the painted/flagged line for loops and/or return manifold. The return line must have slope back to the treatment tank or septic tank in freezing climates if it is not buried below frost and protected from freezing. If loops are formed using solid line, they must be elevated slightly above the dripline to allow for drainage in freezing climates. December 2008 Page 12 s) Install the return header and connect all of the driplines. t) Install air vacuum breakers at the highest points in the dispersal field. Use pipe dope or Teflon tape and hand tighten. u) Connect the return line back through the Headworks box. Open the field flush valve and turn on the pump to flush lines, then close the valve and check the field and all piping and connections for leaks. v) With pump still running, check the pressure at the air vacuum breaker(s). It should be between 10 to 45 PSI. (See the Worksheet line H for design pressure required on supply line.) Check the pressure in the Headworks. It should be five psi or higher. If using a manual valve for field flushing, crack it open until design pressure is reached and leave in that position. Turn off the pump. w) Check the filter for construction debris and clean. x) Set timers and counters as specified in design, and keep a record of these settings. In addition to these settings, keep a record of all of the logs in the panel at the time of start up. Record final pressure readings at startup as well. Date these records for future reference. Installing Lockslip fittings a) Hold the fitting in one hand and position the tubing with the other hand. b) Move the sleeve back, and push the tubing onto the exposed stem as far as possible. c) Push the sleeve out over the tubing and screw onto tubing, as though tightening a nut to a bolt. *Hand tighten; do not use tools. d) Test the connection to make sure the sleeve threads have gripped the tubing tightly. Valve Installation and Operation a) Wrap male adapters with Teflon tape and thread the adapters into the valve inlet and outlet just past hand tight. CAUTION: over tightening may cause damage to the valve. (Note: arrows indicate flow direction on valve.) b) Using watertight electrical fittings, connect the valve common and an individual output wire to the solenoid leads. c) Flush the laterals by opening the internal manual bleed lever on the downstream side of the solenoid. Be certain that flow control handle on top of valve is free spinning (on flow control models). d) Close the internal manual bleed after flushing the system December 2008 Page 13 SUBSURFACE DRIP INSTALLATION METHODS NOTE: Disturbing the soil may affect the pore structure of the soil and create hydraulic conductivity problems. Please consult with your soil scientist or professional engineer before making the installation technique decision. INSERTION METHOD ADVANTAGES DISADVANTAGES a) Hand Trenching* • Handles severe slopes and • Slow. confined areas. • Labor intensive. • Uniform depth. • Back fill required. b) Oscillating or • Fast in small to medium • Depth has to be monitored vibrating plow. (Use installation. closely. the type that inserts • Minimal ground disturbance. • Cannot be used on steep the dripline directly • No need to back fill the slopes. in place, not one that trench. • Requires practice to set and drags the dripline operate adequately. through the soil.) c) Trenching • Faster than hand trenching. • Slow. machine: Ground • May use the 1" blade for • Back fill required. Hog, Kwik-Trench, most installations. E-Z Trench* • Uniform depth. d) Tractor with dripline • Fast. • The installation tool is insertion tool • Minimal ground disturbance. designed specifically for this • Does not stretch drip line. purpose. (Ideally used on • Adaptable to any tractor. machine with down pressure.) December 2008 Page 14 WINTFRI7ATInN Buried drip systems are not prone to frost damage because vacuum release and drain valves are provided in their design. The dripline itself is made of polyethylene, and is not susceptible to freezing. It drains through the emitters, so it will not be full of water after pumps are turned off. Please follow these precautions: a) Manifolds (supply lines and return lines) should slope back to their respective tanks. These lines need to drain rapidly. If using electronic flush valves, be sure drain valves remain open long enough for entire field to drain. If using manual filter flush valves or manual field flush valves, they should be left cracked open slightly for drainage. Alternatively, the manifolds can be located below frost depth. Under extreme conditions, return and supply manifolds must be insulated. b) If using drain back method for frost protection, either remove check valve from pump line or provide alternate method for draining this line. c) Insulate all field boxes in freezing climates. This includes Headworks, zone valve(s), pressure regulator(s) and air vacuum relief valve boxes. d) In severe freezing conditions, use heat tape or a small heater in the Headworks box. d) The top of air vacuum relief valves must be no higher than soil surface and insulated in freezing climates. e) If using a hydraulic indexing valve for zoning a system, be sure it is frost protected in freezing climates. For proper operation, always locate indexing valve at highest point in system to allow for drainage between cycles. f) The driplines will self -drain through the emitters into the soil. If the cover crop over the dripfield is not yet adequately established, add hay or straw over the field for insulation in freezing climates. g) If necessary, mark all valve boxes with a metal pin so you can find it in the winter when covered in snow. December 2008 Page 15 AS BUILT SYSTEM DESCRIPTION. 1. Site name: 2. Site address, including State: 3. Dripfield designed by: 4. Dripfield installed by: 5. Date of installation: 6. Daily design flow: gpd. 7. Soil loading rate: gpd/sq. ft. 8. What treatment system was used? Manufacturer and model number: 9. Number of zones in dripfield: If more than one zone, please describe valve (size, manufacturer, part number, type): 10. Amount of dripline installed in each zone: Zone 1 ft. Zone 2 ft. Zone 3 ft. Zone 4 ft. 11. Dripline model number Wor description: 12. Flow rate per zone: Zone 1 gpm. Zone 2 gpm. Zone 3 gpm. Zone 4 gpm. 13. Depth dripline installed below grade: inches 14. Pump manufacturer, model number and number of pumps: 15. Filter model number Wor description: If more than one zone, do the zones (a) share one filter or (b) each have their own filter? 16. Pressure in each zone: Zone 1 psi Location pressure measured: Zone 2 psi Location pressure measured: Zone 3 psi Location pressure measured: Zone 4 psi Location pressure measured: 17. Size (diameter) of feed manifold: inches. Depth of feed manifold: inches. 18. Size (diameter) of flush manifold: inches. Depth of flush manifold: inches. 19. Size of filter flush valve: inches. Is filter flush valve manual or automatic? 20. Size of field flush valve: inches. Is the field flush valve manual or automatic? If more than 1 zone, do the zones (a) share 1 flush valve or (b) does each zone have its own flush valve? 21. Was any fill material supplied on the dripfield? December 2008 Page 16 If "yes" to 21 above describe fill quality and quantity added. 22. Please provide as -built drawings, including but not limited to direction of drip lines, location of air vents, pressure regulators if applicable, Headworks (filter and valves) and pump tank. December 2008 Page 17 E Z --- T EZT-1 CD4Z-230-16 System Operation: 1-4 ZONE COMBO DRIP CONTROL PANEL L, This panel is designed to control the out flow of two tanks using a PLC and Touchscreen. Based off timer set points and the float switch conditions in each tank the PLC will start/stop pumps and open/close valves, or it can manually control them via the touchscreen. This controller is capable of remote access via PC or smart phone if, connected to a network with internet access. This allows the user to receive emails or text notifications of alarm conditions. The controller also logs data such as: a. Pump Run Time (ETM) "Daily & Totalized)) b. Pump Starts "Daily & Totalized)) c. Filter Flush Count & Time On "Daily)) d. Zone Count and Time On «Daily» e. Field Flush Count & Time On "Daily)) f. Secondary Timer Cycles «Daily» g. High & Low levels h. Pump Fail i. UV Lamp Fail j. Power Cycle Recirculation Tank Pump Operation: This tank has (3) float switches that will control the pump on time (dose) and off time (rest) using settings that can be easily adjusted from the touchscreen based off site topography. a. Float Switch-1 (Redundant Off & Low -Level Alarm): When lowered, this float turns off the pump. It is a secondary off float which will operate if the Timer On & Off float fails. Pumping will be disabled if in the automatic mode. This float also activates the alarm light. The alarm light will remain on until the float is lifted. b. Float Switch-2 (Normal Timer On & Off): This float activates the Normal Timer, which cycles the pump on and off based on the values in the Normal Timer Setting. The timer will control the pump cycle, beginning with the off cycle. c. Float Switch-3 (High Level Alarm): When raised, this float activates the alarm light and audible alarm. The audible alarm may be silenced by pressing the toggle switch towards SILENCE on the side of the control panel. The alarm light will remain on until the float is lowered. EZT-1 CD4Z-230-16 Drip Tank Pump and Valve Operation: 1-4 ZONE COMBO DRIP CONTROL PANEL This tank has (4) float switches that will control the pump on time (dose) and off time (rest) and the opening and closing of valves, using settings that can be easily adjusted from the touchscreen based off site topography. The pump dosing cycles will be controlled by the Normal Timer Float-5. If a high in -flow condition occurs the pump dosing cycle will be controlled Secondary Timer Float-6. At the beginning of each dose cycle the filter flush valve will open for 15 seconds (field adjustable). Once completed the system will then open the corresponding zone valve and begin its supply line pre - charge time of 60 seconds (field adjustable). Then complete the Normal or Secondary preset zone dose time depending on the condition of the float-6. When finished the dosing cycle the pump will run until the pump off delay is reached 10 seconds (field adjustable) the zone valve and field flush valve will remain open for 5 minutes (field adjustable) to allow for drainage. After completing 10 field flush cycle counts (field adjustable) the field flush valve will open and flush each zone 5 minutes (field adjustable). a. Float Switch-4 (Redundant Off & Low -Level Alarm): When lowered, this float turns off the pump. It is a secondary off float which will operate if the Normal Timer On & Off float fails. Pumping will be disabled if in the automatic mode. This float also activates the alarm light. The alarm light will remain on until the float is lifted. b. Float Switch-5 (Normal Timer On & Off): This float activates the Normal Timer, which cycles the pump on and off based on the values in the Normal Timer Setting. The timer will control the pump cycle, beginning with the off cycle. c. Float Switch-6 (Secondary Timer): This float activates the Secondary Timer function when lifted. The timer will cycle the pump based on the values programmed in the Secondary Timer Settings. Starting with the dose cycle first then the resting cycle. Both the "Dose" and "Rest" time may be different from those for the Normal Timer. The Secondary Timer function will remain active until the secondary timer float lowers. When the Secondary Timer function has been completed, normal timer operation will automatically resume. d. Float Switch-7 (High Level Alarm): When raised, this float activates the alarm light and audible alarm. The audible alarm may be silenced by pressing the toggle switch towards SILENCE on the side of the control panel. The alarm light will remain on until the float is lowered. HOME SCREEN: System Overview EZT-1CD4Z-230-16 1-4 ZONE COMBO DRIP CONTROL PANEL a a a Navigation Buttons 1. Status of UV Lamp If Connected 2. Displays Remaining Rest and Dose Times 3. Indicates Current Step of The Controller If A Dose Cycle Was Activated. 4. Tank Level Animation & Float Status: Empty Circle = Float Down, Filled Circle = Float Up 5. Status of The Pump: Red = Stopped, Green = Running, Blinking Red = Fail 6. Displays Current Date & Time 7. Displays Number of Cycle Remaining Until A Field Flush Occurs 8. Yellow Color Indicates That The Next Dose Will Go To That Zone 9. Status of The Valve: Grey = Closed, Green = Open 10. Displays That Corresponding Zone Hand -Off -Auto Switch In The Touchscreen Is In The Off Position 11. Displays That Only 3 Zones Are Selected In Zone Settings EZT-1 CD4Z-230-16 Quick Start Instructions: 1-4 ZONE COMBO DRIP CONTROL PANEL ➢ Press: The Setup Menus button > Enter the level 2 password ➢ Press: Recirc. Pump Dose / Rest Times Button > Enter the Normal Rest and Dose times for cycling the pump in the recirculation tank. ➢ Press: Drip Pump Dose / Rest Times Button > Enter the Normal and Secondary Rest and Dose times for cycling the pump in the drip tank based off the topography of the site. Enter the delay pump off delay time (Default 10 Seconds). This how long the pump runs after the dose time is finished allowing valves to open for drainage. ➢ Press: Zone Settings Button: Enter how many zones are being used (Default 4). If zone flow GPM is known enter the values per corresponding zone. ➢ Press: Filter Flush Timer Button > Enter how long to flush the filter before each dose cycle. (Default 15 Seconds) ➢ Press: Supply Line Pre -charge Button > Enter how long to pre -charge the line before the dose timer activates. (Default 60 Seconds) ➢ Press: Drain Cycle Settings Button > Enter how long to drain the line after a zone dose the line before the dose timer activates. (Default 5 Mnutes) ➢ Press: Field Flush Settings Button > Enter how many cycles before a field flush is enabled (Default 1ogcles). Also enter how long you want the zone to be flushed (Default 5 Mnutes). ➢ Press: Alarm Timers Button > Enter the High & Low alarm on/off delays for each tank (All Defaultedto 5 Seconds). ➢ Press: More Button > Enter level 3 password in the Setup Menu if you need to disable UV Lamp Fault ➢ Press: Back Button To Go Home ➢ Press: H-O-A Button > Place Recirc. Pump, Drip Pump, Filter Flush, and Field Flush in auto mode. ➢ Press: More Button in the Hand Off Auto Control Screen > Place all zones used in auto mode. ➢ Navigate back to the Home Screen SCREENS: BACK CONTROLMORE RECIRC_ PUMP DRIP PUMP FILTER FLUSH FIELD FLUSH HOME Recirc. Pump Cycles Im Recirc. Pump Cycle ETM = Recirc. Tank High Warms MM BACK SETUP MENU I RECIRC. PUMP DRAIN CYCLE DOSE 1 REST TIMES SETTINGS DRIP PUMP FIELD FLUSH DOSE I REST TIMES SETTINGS ALARM ZONE SETTINGS TIMERS FILTER FLUSH - I TIMER EMAIL 1 TEXT ADDRESSES SUPPLY LINE NETWORK SETTINGS PRE -CHARGE TIM PUMP DOSE 1 REST BDRIP BACK TIMER SETTINGS II HOMES NORMAL DOSE TIME HH 1 MM 1 SS HH 1 MM 1 SS DRIP PUMP OFF -DELAY SECONDARY SECONDARY REST TIME DOSE TIME EMM MM HHIMMISS HHIMMISS BACKHAND -OFF -AUTO HOME CONTROL ZONE-1 ZONE-2 ZONE-3 ZONE-4 VALVE VALVE VALVE VALVE DRIP ONLY STATUS I HOME Drip Pump Cycles Drip Pump Cycle ETM '= Drip Tank High Alarms Drip Secondary Timer Cycles Zone 1 Cycles [0 10 ETM Min. Zone 2 Cycles IM NM ETM Min. Zone 3 Cycles NM NM ETM Min. Zone 4 Cycles MM MM ETM Min RECIRC. PUMP DOSE 1 REST TIMER SETTINGS NORMA NORMAL o-cT Tr DOSE TIVE MEE ERE II I( BACK I II HOME Enter Estimated GPM per Zone Enter Zane 1 Zane 3 Number of Zones 1 - 4 Zone 2 Zone 4 123.4 GPM]123.4 GPMI FILTER FLUSH TIMER BACK FILTER FLUSH Time Setting imm DRAIN CYCLE SETTINGS DRAIN CYCLE ALARM TIMERS BAC RECIRCULATION TANK High Alarm High Alarm On -Delay Off -Delay Low Alarm Low Alarm On -Delay Off -Delay �123 Sec! i123 Sec! HOME HOME DRIP TANK High Alarm High Alarm On -Delay Off -Delay Low Alarm Low Alarm OrvDalay Off -Delay i123 Sec! i113 Sec! SUPPLY LINE PRE -CHARGE TIMER PRE -CHARGE Time Setting HOME FIELD FLUSH FIELD FLUSH Total Cycles Time Before Flush Setting Remaining � Cycles Until. Flush. A2 SYSTEM HISTORY 6ACK_ - HOURS HOURS Totalized Totalized Recirc. Drip Pump Pump History �. yc History RECIRCULATION TANK DRIP TANK 77 PUMP & ALARM LOGS PUMP & ALARM LOGS ALARMS I FILTER & FIELD FLUSH POWER CYCLE LOGS LOGS RE K DRIPLOGS RIP ZONJ UGALLONS FLOAT CYCLES GALLONS RECIRCULATION DRIP � BACK PUMP & ALARM LOGS HOME BACK) PUMP & ALARM LOGS " " Date Recirc. Pump CyclesETM Hours _ ! Date Drip Pump CyclesETM Hoursi 12/31/20 1234 -12.34 Il2/31/20 1234 1 -12.34 7 FILTER & FIELD FLUSH 6ACK LOGS HOME DRIP ZONE BAC LOGS HOM E Date Filter Flush Cycles Filter Flush Minutes Date 7n-1 Cycles Zn-1 Mins. Zn-2 Cycles Zn-2 Mins. 12/31/20 1234 1234 12/31/20 1234 1234 1234 1234 ALARM HISTORY LIST BACK HOME FLOAT CYCLES BACK HOME ccurrence RECIRCULATION TANK DRIP TANK High High Level Level Secondary Timor Timer Timer Enable Enable �., Off F Float n Float ESTIMATED GALLONS E- MIL 1 TEXT ADDRESSES BACK HOME BACK HOME Maximum 45 Characters TOTALIZED ZONE 1 E-MAIL gBCDEFGHIJKLMNOPQRSTJVWXYZABCDEF ZONE 2 E-MAIL ABCDEFGHIJKLMNOPORSTJVWXYZABCDEF ZONE 3 ® E-MAIL ABCDEFGHIJKLMNOPQRSTJVWXYZABCDEF ZONE 4 ABCDEFGHIJKLMNOPQRSTUVWXYZABCDEF E-MAIL EL IDENTIFIER BACK PLC NETWORK SETTINGS ® ADVANCED SETTINGS HOME PLC CPU Pat 1 Network 723, j :723 ::723, : l 123 : -P- Address: .123. j .723, ::123, : l 123 : Subset Mask: RESET RESET Recirc_ Pump Drip Pump Totalizer History Totalizer History ---- - :--- - ---- - - default Gateway: SETTINGS ESET RESET • , Zone 1 ESET Zone 2 ESET Zone 3 Zone 4 Maintenance Port: 2101 H.W3s— Gallons Gallons Gallons Gallons EZT-1CD4Z-230-16 1-4 ZONE COMBO DRIP CONTROL PANEL 3 4 PASSWORD SCREEN: Level 2 ********** 1 2 3 4 5 6 7 S 9 0 BS Q W E R T Y U I 0 P CLR al H S D F G H J K L CRN 1970 Z x G U B N M ENT 1. Displays The User Name 2. Press Arrows To Scroll Between Users, Once You Have Selected The User Name You Want Use The Keypad To Enter In The Correct Password. 3. Lower- & Upper- Case Characters Pop-up Screen 4. Special Characters Screen Pop-up Screen 5. Level 1 Password = DRIP 6. For Level 2 Password Access Contact E-Z Treat 0 1 1 2 3 4 5 6 7 8 9 1 11 1 d 1;7 inrh S E C rn 6 <--14 Enclosure Perspective 16� ALDERON' Industries This drawing contains proprietary information which must not be du licated, used, or disclosed P Mode' Number EZT-1 CD4Z-230-16 Quote Number Drawn B y J. Sonnier Page Number e in whole or in without written consent. DWG Checked By B. Klabunde 15 16 Leading Edge Control Products part prior of 11015TH ST SOUTH Notes: 1. WARNING! Electrical Shock Hazard! Disconnect power before servicing this product. A qualified service person must install and service this product according to applicable electrical and plumbing codes. Date 1/19/2021 PRODUCTION REPORT HAWLEV MN, 56549 2. Install in accordance with National Electric Code, NFPA 70, Seal all boxes, fittings, and conduit with appropriate seal devices to prevent moisture and gasses from entering enclosure. 3. Connect all grounds to a good ground. 4. Dashed lines represent field wiring - Use minimum 60 deg C Copper Wire 5. Branch Circuit Protection Device/Disconnect Means Field Provided. Revision Mounting Panel Layout Device tag Part Description ERP # 2 Block, End Clamp, PXC, 35-5 1005000 3 Block, End Clamp, PXC, 35-5 1005000 4 Block, End Clamp, PXC, 35-5 1005000 5 Block, End Clamp, PXC, 35-5 1005000 6 Block, End Clamp, PXC, 35-5 1005000 7 Block, End Clamp, PXC, 35-5 1005000 8 Block, End Barrier, PXC, D-ST 4 1004862 9 Saddle Jumper, PXC, FBS 2-5 1004974 10 Saddle Jumper, PXC, FBS 2-5 1004974 11 Block, End Barrier, PXC, D-ST 2,5-QUATTRO 1004937 12 Block, End Barrier, PXC, D-ST 2,5-TWIN 1004468 13 Block, End Clamp, PXC, 35-5 1005000 14 Block, End Clamp, PXC, 35-5 1005000 15 Block, End Barrier, PXC, D-ST 4 1004862 16 Saddle Jumper, PXC, FBS 3-5 1004975 17 Saddle Jumper, PXC, FBS 4-5 1005310 18 Block, Partition Plate, PXC, ATP-STTB 4 1004947 19 Block, Partition Plate, PXC, ATP-STTB 4 1004947 20 Saddle Jumper, PXC, FBS 3-5 1004975 21 Saddle Jumper, PXC, FBS 3-5 1004975 23 Block, Partition Plate, PXC, ATP-STTB 4 1004947 25 Block, End Barrier, PXC, D-PTTB 2,5 1004939 26 Block, End Barrier, PXC, D-ST 4 1004862 27 Circuit Breaker Feet 1000632 28 Circuit Breaker Feet 1000632 29 Circuit Breaker Feet 1000632 30 Circuit Breaker Feet 1000632 31 Circuit Breaker Feet 1000632 32 Circuit Breaker Feet 1000632 BALLASTI. Ballast, Fulham, WH3-120-C 1005234 BPI Backplate, Aluminium, 18"x16" 1000361 CB1 Circuit Breaker, SQD, 2P. 20A 1001310 CB2 Circuit Breaker, SQD, 2P. 20A 1001310 CB3 Circuit Breaker, SQD, 1P, 10A 1000461 CRI. PA, Relay, Screw Terminal, 120V, SPDT 1003211 CS1 Switch,Current,NK Tech, NO 1001837 DIN1 Rail Din, Steel, Low 1000426 DIN2 Rail Din, Steel, Low 1000426 F1 Block, Terminal, Fuse, PXC, PT 4-HESI 1004861 F2 Block, Terminal, Fuse, PXC, PT 4-HESI 1004861 F3 Block, Terminal, Fuse, PXC, PT 4-HESI 1004861 F4 Block, Terminal, Fuse, PXC, PT 4-HESI 1004861 <--12 Mounting Panel Layout 14� ILDERO ALDERON' This drawing contains proprietary information which must not be duplicated,used,ordisclosed Mode' Number EZT-1CD4Z-230-16 Quote Number Drawn B y I Sonnier Page Number 9 in whole or in without written consent. DWG Checked By B. Klabunde 13 16 Leading Edge Control Products part prior of 11015TH ST. SOUTH Notes: 1. WARNING! Electrical Shock Hazard! Disconnect power before servicing this product. A qualified service person must install and service this product according to applicable electrical and plumbing codes. Date 1/19/2021 PRODUCTION_ REPORT HAWLEV MN, 56549 2. Install in accordance with National Electric Code, NFPA 70, Seal all boxes, fittings, and conduit with appropriate seal devices to prevent moisture and gasses from entering enclosure. 3. Connect all grounds to a good ground. 4. Dashed lines represent field wiring - Use minimum 60 deg C Copper Wire 5. Branch Circuit Protection Device/Disconnect Means Field Provided. RevI$lon 1 0 1 1 1 2 1 3 1 4 1 5 1 6 1 7 1 8 1 9 1 Device tag Part Description ERP # 1 Label, Brady, 1.06" x .49", BK 1001429 BP2 Inner Door, Hoffman, Poly Pro, 18x16 1004815 HMI1 PLC, HMI, 4.3" Color, IDEC, HG1G 1002803 SW2 Switch,Toggle,On/OFF,Gaynor 1000128 HMI1 Mounting Panel Layout <--13 Mounting Panel Layout 15� ALDERON' Industries This drawing contains proprietary information whichmustnotbeduplicated,used,ordisclosed in whole or in part without prior written consent. Mode' Number DWG EZT-1CD4Z-230-16 Quote Number Drawn B y J. Bonnier Page Number 9 14 16 Checked By B. Klabunde Leading Edge Control Products of Notes: 1. WARNING! Electrical Shock Hazard! Disconnect power before servicing this product. A qualified service person must install and service this product according to applicable electrical and plumbing codes. Date 1/19/2021 11015TH ST. SOUTH PRODUCTION_ REPORT HAWLEV MN, 56549 2. Install in accordance with National Electric Code, NFPA 70, Seal all boxes, fittings, and conduit with appropriate seal devices to prevent moisture and gasses from entering enclosure. I Connect all grounds to a good ground. 4. Dashed lines represent field wiring - Use minimum 60 deg C Copper Wire 5. Branch Circuit Protection Device/Disconnect Means Field Provided. Revision 0 1 1 1 2 1 3 4 5 1 6 7 8 9 Branch Circuit Protection Device/Disconnect Means Field Provided - 2 X Pump Load Led Field Wiring Legend . . . . . . Size per manufacturing specifications for Pump/Motor 120/230 VAC 0-16A MAX 60 Hz Field Supplied Alarm/Control Source Pump Source Pump Source Pump must contain integeral Device Tag Description PTr.ma,e 120 VAC, 60Hz 120/230 VAC, 60Hz 120/230 VAC, 60Hz thermal overload protection. BALLAST2 Ballast CB1;CB2 Circuit Breaker 2 Pole 20 A 45 In-Ib Bottom Feed Bottom Feed Bottom Feed Ground Motor PE to Ground Lug CB3 Circuit Breaker 1 Pole 10 A 45 In -lb Circuit Breaker Circuit Breaker Circuit Breaker CSl Current Switch NO 0.5-100A Ll N Ll L2/N Ll L2/N F1...F3;F8 Fuse Terminal Block (ITS Tn I7n (ITS (I7� (ITS F1...F3;F8 5 A Control Fuse 37 PUMPI;PUMP2 Customer Supplied AC Pump I I 1.4 1.5 I I I I M1 BZK PVVS Power Supply 24VDC 30W N1N2 CB1 5L3 6Tr �T2 SW2 Toggle Switch I TB6 2 I I I I 31 r TB1;TB6 Terminal Block 30A 12 TB2 Double -Level Terminal Block 20A WHT 4 41,3 112K 3L2 4T2 12 18 ,I ,I ,I �— — O I 32 — PUMP1 TB3;TB4 Terminal Block 20A b \ \ \ 1 -_ TB5 Terminal Block 20A CB3 TB4 1 2 I I L — — — — — O��v�12 M I 2T1 — — —�Tl PE I I TB5 Terminal Block 20A 1 I I TRANS1 Transformer, 24V I IA3 J3B8LK 1 N3N4 N5N6 CB2 5L3 6T3 2 _32 RED 1.2 2.2 2.4 2.4 I I 33 r 12 B I I — — — — — — — — — — — 0 BLK 3L2 k-D — PUMP2 BLK I L Pf 2 L- 2 I 1 12K 1L1 i 2T1 Tl 34 1 PE F8 1.1 /2.3 1.1 2 1 2 RED N1 N2 16 9 s RED RED 16 18 1 F1 F2 2 4 RED 18 TB1 120VAC.1 R 7 RED 24 BLK 5 RED 30 GRN 18 WH18 1 PWS ]wHT17 18 ND1 PE 13 — 18 L PE N COM 120 208 240 10 Power Supply White Black Red Orange 2 6 '18 PS5R-VC24 F1 - F3, F8 Fuse must be replaced with 5 Ampere RED 18 BALLASTI Black white Yellow RED 24 VDC 30W TRANSI type 5mm x 20 mm fast acting 250 V max V+ V- Spare fuses provided in packet 1 02 I 20 21 22 25 26 Blue 24 VAC Yellow DVAC BLK 18 WHT 18 YEL 18 RED 18 RED 18 39 BLU 41 YEL 18 HTR1 I TB5 1 2 3 28 z9 3s 36 18 XL L fl fl x� I 19 11 23 4 27 BLU 18 BLU WHT/BLU 18 18 WHT/BLU 18 1 RED WHT 1a YEL 1a CAUTION: Nonmetallic enclosures does not provide 2.4 1a 18 1a IF F3 grounding between conduit connections. Use grounding B CS' 24VDC.1 OVDC.1 2 bushings and jumper wires. 14 BLU UV Lamp N3 2,6 2.1 40 RED ATTENTION: Les boitiers non-metalliques ne permettent Red Blue 1. SW2 coM �No� 11 24 VDC.2 18 pas de mise a la terre entre les connexions de conduits. TB2 27 26 3.4 OVDC.2 V Utilisez des manchons de mise a la terre et des flls de liaison. UV Lamp 3.4 24VAC OVAC <=INTRODUCTION/2 Schematic 2.4 2.7 2� ALDERON Indusl This drawing contains proprietary information which must not be duplicated, used, or disclosed in whole or in part without prior written consent. Model DWG Number EZT-1 C D4Z-2 30-16 Quote Number Drawn By B. Nelson Page Number 1 3 Checked By B. Klabunde dl is Leading Edge Control Products of Notes: 1. WARNING! Electrical Shock Hazard! Disconnect power before servicing this product. A qualified service person must install and service this product according to applicable electrical and plumbing codes. Date 1/19/2021 11015TH ST. SOUTH HAWLEY MN, 11549 2. Install in accordance with National Electric Code, NFPA 70, Seal all boxes, fittings, and conduit with appropriate seal devices to prevent moisture and gasses from entering enclosure. 3. Connect all grounds to a good ground. 4. Dashed lines represent field wiring -Use minimum 60 deg C Copper Wire 5. Branch Circuit Protection Device/Disconnect Means Field Provided. Revision 0 1 2 3 4 5 1 6 7 8 9 Recirculation Drip Floats High Level Legend Field Wiring High Level Secondary Timer F57 � � � � � � Field Supplied Dose Enable FS3 Dose Enable FS6 O Device Tag Description Redundent Off FS2 Redundent Off FS5 C) r Bl Buzzer 120V Sue O S1 -0 r O S4 [1 r I I CF7 Relay, retinal, SPDlock 7.1In-Ib I 1 � I I I I F4... F7 Fuse Terminal Block I I 1 � 1 11 I I I I F4.LT1 S A Control Fuse LT1 Red Beacon 15W i i 1 1 1 1 1 1 1 1 1 1 1 1 111;M2 Contactor 18 A- 120V Coil 15 In -lb 15 In -lb T T T T T T T T T T T T T T PLCl PLC, 14I/100 i TB2 2 1 4 1 6 1 8 1 101 121 14 SWl Toggle Switch SPDT 24VDC.1 TB2 Double -Level Terminal Block 20A TB2 1 3 5 B.. 7 9 11 13 45 18 B L F4-F7 Fuse must be replaced with 5 Ampere BILE18 1 type 5mm x 20 mm fast acting 250 V max 1a Spare fuses provided in packet 44 47 54 59 60 63 t 67 70 7 R/ 1.0 BLU BLU BLU BLU BLU BLU LU BLU BLU RED 18 18 18 18 18 8 18 18 18 68 BILE PLC1 18 ICOM I0 Ilbb I3 I4 I5 I6 I7 I10 Ill I12 bbI13 I14 I15 �I21 775 BILE BILE 18 18 24VDC IN MICROSma rt COM Analog IN SW1 FGA-C24R10E (NO)1 of cNO) 2 Serial Test slence u56 R OUT R .OUT R .. O IS SERIAL Ethernet OVDC 24VDC PE COMO 00 O1 02 03 COM1 04 05 06 07 COM2 010 O11u3.6 66 69 72 64 76 n 13NO 3NO 43 49 53 58 61 PNK PNK PNK 71 73 PNK PNK fNKGRY RED RED RED RED 18 18 18 GRY PNK 18 18 8 M1 M2 18 46 18 18 18 18 1a 18 14N0 .3T14NO GRN 18 1 1 1 1 TB 2 16 18 20 22 24 26 F4 F5 F6 F7 TB2 11 11 191 211 21 251 IF so 52 55 2 I I I I I I I I I I I I OVAC PE RED RED RED 12 14 OVDC•1 18 18 18 56 6z 1 IA11 IA11 IA11 IAl 1 IA11 IA1 1. CR1 1.4 GND1 — 18 RED I I I I I I Zl Z2 Z3 Z4 ZF FF 11 Al Al Al 1 1 I I I I I I i 241.5 A2 A2 A2 A2 A2 A2 M1 M2 CR1 LT1 B1 15 79 80 YEL EL /� A2 A2 A2 2 2 Zone Control Zone Flush Filter Flush 1a 1a 120VAC.1 51 READ 57 WHT 16 TB2 29 30 18 18 18 18 1.0 WHT N5 / 1.1 N4 18 N6 / 1.1 Dry Alarm Contacts <-- 1 1.1 Schematic 3 This drawing contains propnetary information Quote Number Drawn B J. Sonnier Page Number ALDERON' Whichmustnotbedu licated,used,ordisclosed Mode' Number EZT-1CNZ-230-16 y 9 Industries P Leading Edge Control Products in whole or in part without prior written consent. DWG Checked By B. Klabunde 2 Of 3 11015TH ST SOUTH Notes: 1. WARNING! Electrical Shock Hazard! Disconnect power before servicing this product. A qualified service person must install and service this product according to applicable electrical and plumbing codes. Date 1/19/2021 HAWLEY MN, 56549 2. Install in accordance with National Electric Code, NFPA 70, Seal all boxes, fittings, and conduit with appropriate seal devices to prevent moisture and gasses from entering enclosure. 3. Connect all grounds to a good ground. 4. Dashed lines represent field wiring - Use minimum 60 deg C Copper Wire 5. Branch Circuit Protection Device/Disconnect Means Field Provided. Revision 0 1 2 3 4 5 6 7 8 9 Legend Field Wiring . Field Supplied Device Tag Description CBLl Ethernet Cable Cat5 GNDI 8P Ground Bar 30In-Ib HMI1 HMI Display 2.2In-lb OVDC.2 24VDC.2 HMI1 USB2 GND1 81 HG 1G-4VT22TF-B «USB1 II1 I PE (T� (T� (T� (7� (T� (7� (T� (7� (T� PE I SD I RD I RS I CS I SG I SDA I SDB I RDA I RDB LAN CBL1 38.228 In SERIAL 2.0 <-- 2 Schematic = PRODUCTION_REPORT/1 ALDERON' Industries This drawing contains proprietary information which must not be duplicated, P Mode' Number EZT-1CD4Z-230-16 Quote Number Q Drawn B y B. Nelson Page Number 9 in whole or in without written consent. DWG Checked By B. Klabunde 3 3 Leading Edge Control Products part prior of 11015TH ST. SOUTH Notes: 1. WARNING! Electrical Shock Hazard! Disconnect power before servicing this product. A qualified service person must install and service this product according to applicable electrical and plumbing codes. Date 1/19/2021 HAWLEV MN, 56549 2. Install in accordance with National Electric Code, NFPA 70, Seal all boxes, fittings, and conduit with appropriate seal devices to prevent moisture and gasses from entering enclosure. 3. Connect all grounds to a good ground. 4. Dashed lines represent field wiring - Use minimum 60 deg C Copper Wire 5. Branch Circuit Protection Device/Disconnect Means Field Provided. ReVI$lon Field Dosing Tank Pump STA-RITE'ST.E.P Plus Series 4" high -head multi -stage submersible effluent pumps The STEP Plus 4" submersible filtered effluent pumps in 10, 20, 30 and 50 GPM models offer dependable performance and value for high pressure filtered effluent applications. These STEP Plus pumps will handle "dry run" conditions. The 10, 20, 30 and 50 GPM are industry standard 3-3/4" in diameter. Filtered Effluent... for residential, commercial, and agricultural use. Shell — Stainless steel Discharge — 10, 20 and 30 GPM models: fiberglass -reinforced thermoplastic; 50 GPM models: stainless steel Discharge Bearing — Nylatron® Impellers — Engineered composite Diffusers — Engineered composite Suction Caps — Engineered composite with stainless steel wear ring Thrust Pads — Proprietary spec. Shaft and coupling — Stainless steel 300 grade Intake — Engineered composite Intake Screen — Polypropylene Jacketed Cord — 600 Volt "SOOW" or 300 Volt "SJOW" jacketed 10' leads (2-wire with ground); optional 20', 30', 50' and 100' lengths available In order to provide the best products possible, specifications are subject to change. Proven "Floating Impeller" Staging System —Incorporates 1st -in -class performance, sand handling and thrust management staging system with the industry exclusive "dry -run" design element. Reinforced engineered composites and stainless steel, offering high resistance to corrosion and abrasion. Discharge — Tested -tough, fiberglass - reinforced thermoplastic, with proven internal check valve. Large wrench flats and rope hole. Shell —Stainless steel pump shell offers high corrosion resistance. Shaft — Hexagonal3/8", 300-grade stainless steel pump shaft; offers generous impeller drive surfaces. Shaft Bearing — Exclusive self- lubricating Nylatron bearing resists wear surface from sand. Motor Bracket — Tested -tough, fiberglass - reinforced thermoplastic; incorporates an integral suction screen. ►; PENTAIR 1 511411WS Field Dosing Tank Pump STA-RITEO ST.E.P Plus Series 4" high -head multi -stage submersible effluent pumps ORDERING OR CATALOG NUMBER HP STAGES MAX. LOAD AMPS VOLTS PHASE/ CYCLES CORD LENGTH PUMP END LENGTH PUMP + MOTOR LENGTH STEP10 1/2 7 12.0 115 1/60 10' 13" 21-1/2" STEP10X100FT-05121 1/2 7 12.0 115 1/60 100' 13" 21-1/2" STEP10X30FT 1/2 7 12.0 115 1/60 30' 13" 21-1/2" STEP10X50FT 1/2 7 12.0 115 1/60 50' 13" 21-1/2" STEP20 1/2 5 12.0 115 1/60 10' 13-1/4" 22-1/4" STEP20X30FT 1/2 5 12.0 115 1/60 30' 13-1/4" 22-1/4" STEP20X50FT 1/2 5 12.0 115 1/60 50' 13-1/4" 22-1/4" STEP30-05121 1/2 3 9.5 115 1/60 10' 11-1/2" 22-1/2" STEP30X30-05121 1/2 3 12.0 115 1/60 30' 11-1/2" 22-1/2" STEP30X50-05121 1/2 3 12.0 115 1/60 50' 11-1/2" 22-1/2" STEP30-05221 1/2 3 4.7 230 1/60 10' 11-1/2" 22-1/2" STEP30X100-05221 1/2 3 4.7 230 1/60 100' 11-1/2" 22-1/2" STEP30X30-05221 1/2 3 4.7 230 1/60 30' 11-1/2" 22-1/2" STEP30X50-05221 1/2 3 4.7 230 1/60 50' 11-1/2" 22-1/2" STEP30-10221 1 5 9.1 230 1/60 10' 14" 27-1/2" STEP30X100-10221 1 5 9.1 230 1/60 100' 14" 27-1/2" STEP30X30-10221 1 5 9.1 230 1/60 30' 14" 27-1/2" STEP30X50-10221 1 5 9.1 230 1/60 50' 14" 27-1/2" STEP30-15221 1-1/2 6 11.0 230 1/60 10' 15-1/4" 30-1/4" STEP30X100-15221 1-1/2 6 11.0 230 1/60 100' 15-1/4" 30-1/4" STEP30X30-15221 1-1/2 6 11.0 230 1/60 30' 15-1/4" 30-1/4" STEP30X50-15221 1-1/2 6 11.0 230 1/60 50' 15-1/4" 30-1/4" STEP50-05121 1/2 2 9.1 115 1/60 10' 11-1/4" 21-1/2" STEP50-05221 1/2 2 9.1 230 1/60 10' 11-1/4" 21-1/2" STEP50-10221 1 3 9.1 230 1/60 10' 13-1/4" 26-3/4" STEP50X100FT-10221 1 3 9.1 230 1/60 100' 13-1/4" 26-3/4" STEP50X30FT-10221 1 3 9.1 230 1/60 30' 13-1/4" 26-3/4" STEP50X50FT-10221 1 3 9.1 230 1/60 50' 13-1/4" 26-3/4" STEP50-15221 1-1/2 4 11.0 230 1/60 10' 15-1/4" 30-1/4" STEP50X100FT-15221 1-1/2 4 11.0 230 1/60 100' 15-1/4" 30-1/4" STEP50X30FT-15221 1-1/2 4 11.0 230 1/60 30' 15-1/4" 30-1/4" STEP50X50FT-15221 1-1/2 4 11.0 230 1/60 50' 15-1/4" 30-1/4" 511411WS Field Dosing Tank Pump STA-RITEO ST.E.P Plus Series 4" high -head multi -stage submersible effluent pumps Asses Pu 3-7/8" Jacketed Cord 10, (Standard) 30', 50', 100' (Optional) Dimensions (in inches) are for estimating purposes only. 511411WS Field Dosing Tank Pump STA-RITEO ST.E.P Plus Series 4" high -head multi -stage submersible effluent pumps CAPACITY LITERS PER MINUTE 0 25 50 75 100 I I I I I 300 S>, Fq j0 A 250 W 200 W LL Z 50 LLJ 200 175 F 150 W W LL Z 125 C3 W = 100 J F OF 75 50 25 0 10 20 30 CAPACITY GALLONS PER MINUTE 250 y F 200 W W W W LL 2 Z Z a W 150 2 J a � F O F 100 CAPACITY LITERS PER MINUTE 0 25 50 75 100 I I I I I 300 ST�A2 O �/2yA 50 0 10 20 CAPACITY GALLONS PER MINUTE r 80 N 60 W W W Z 0 W 40 = J F O 10 30 CAPACITY LITERS PER MINUTE CAPACITY LITERS PER MINUTE 0 25 50 75 100 125 150 175 0 50 100 150 200 250 300 I I I I I I I I I I I I I I 35 30 25 W W W W 20 Z 0 a W 15 = J F O 10 5 0 — 0 0 10 20 30 40 50 0 10 20 30 40 50 60 70 80 CAPACITY GALLONS PER MINUTE CAPACITY GALLONS PER MINUTE 293 WRIGHT STREET, DELAVAN, WI 53115 WWW.STA-PITE.COM PH:888-782-7483 ORDERS FAX:800-426-9446 PENTAI Because we are continuously improving our products and services, Pentair reserves the right to change specifications without prior notice. 511411WS (11/17/17) M�.... MEN W' .. 60 100 50 W F 80 W LL 40 Z Z a p 60 W W 30 2 J J F ~O 40 20 ~ 20 10 East Coast Investors, LLC Lot 62 & 63 Peninsula at Hyco Lake Person County, North Carolina Site Map MacConnell & Associates, P.C. 501 Cascade Pointe Lane, Suite 103 Cary, North Carolina 27513 P.O. Box 129 Morrisville, North Carolina 27560 Phone: (919) 467-1239 Fax: (919) 319-6510 LEGEND ADJACENT BOUNDARY W J C BOUNDARY (PROPERTY) Q N Q RIGHT-OF-WAY U r S26 CONTOURS - INDEX a ++8 CONTOURS - INTERMEDIATE x FENCE — — — — — — — EDGE OF PAVEMENT 100 YEAR FLOOD PLAIN Z W H INITIAL DRIP LINES Lu QLu W V RETURN LINES (� � � 2-1 Z SUPPLY LINES Z } fn W Z WATE♦RtAIL DIVERSION BERM Z °� P IVATE RAW _� H� W R O SOIL BOUNDARY Z Q H W a- Z B >> � SUITABLE SOILS BOUNDARY _j OU Q 0 RETURN MANIFOLD J Z LL LU H � � � ® SUPPLY MANIFOLD m Z d Z W - / \ _ —r CO CLEAN OUT d CP CONTROL PANEL /SURFACE IRRIGATION l / EZRT EZ TREAT RE -CIRCULATION TANK M / DRIPFIELD O N / E-Z EZ TREAT TREATMENT UNIT V O TREATMENT SYSTEM U w „ — � y �� �� ��� FDT FIELD DOSING TANK 00 W jST SEPTIC TANK V Q 3-BEDROOM / � M METER 7 p PRORQSED DWEIXING, ���� HU HYDRAULIC UNIT Cl) CD CD UV ULTRAVIOLET DISINFECTION W M N ao ZV ZONE VALVE W z Q� cl SOIL DESCRIPTIONS _ o _x L x Halifax sandy loam, 6 to z L) m 500' DISPOSAL AREA HaC p 2 Q M SETBACK 10 percent slopes (L Q z W a SmB Siloam loam, 2 to 8 a z J percent slopes a SmF Siloam loam, 15to 45 0 o w percent slopes CA I F Sct 1 51201 O <) �tiGINE�� " U I I / GRAPHIC SCALE: 1" = 200' 0 100 260 400 600 East Coast Investors, LLC Lot 62 & 63 Peninsula at Hyco Lake �r SE _ o : 051201 �� � •. FryGINE. •••� �yRisTOP\N\\\ \1ll h Person County, North Carolina Operation & Maintenance Plan MacConnell & Associates, P.C. 501 Cascade Pointe Lane, Suite 103 Cary, North Carolina 27513 P.O. Box 129 Morrisville, North Carolina 27560 Phone: (919) 467-1239 Fax: (919) 319-6510 Operation and Maintenance Plan System Background The wastewater treatment and disposal system has been designed to treat the generated domestic wastewater from a resident dwelling. The system consists of the following: • One (1) 1,000-gallon septic tank with PolyLOK PL-122 effluent filter • One (1) Model 600 E-Z Treat recirculating media filter (treatment unit) • One (1) 1,000-gallon recirculation tank • One (1) Sta-Rite (Catalog Number STEP) 301/2 hp pump • One (1) 3,500-gallon field dosing / storage tank • One (1) field dosing pump (as shown on construction drawings) • One (1) flowmeter • One (1) rain sensor • Surface drip irrigation field with sufficient drip lines, and all the necessary appurtenances. Each of these treatment units are described in additional detail below. The septic tank has been sized to provide at least 48 hours of anaerobic treatment and solids removal. Domestic wastewater generated from the residence will enter the first chamber of the tank by gravity, where solids settle to the bottom and scum floats to the top. The settled solids are anaerobically digested, reducing the volume of solids. The remaining liquid flows through the baffling wall into the second chamber, where further settlement takes place. A PL-122 Polylok, or approved equal effluent filter will be housed in the second chamber of the septic tank to prevent solids from reaching the E-Z Treat recirculation tank. Septic tank effluent will drain into the recirculation tank to receive aerobic treatment. The recirculation tank will house a Sta-Rite STEP 30 1/2-hp pump. Wastewater will then be pumped from the recirculation tank onto an E-Z Treat treatment unit where a spray manifold mists the wastewater over a media filter bed to maximize aerobic digestion by the microbes present. The E- Z Treat treatment unit effluent will flow by gravity back into the E-Z Treat recirculation tank to receive additional treatment or (if dosing is complete) to the field dosing / storage tank through the bypass valve. The field dosing tank has been sized to store up to 5-days of daily flow in the event of heavy rain or power failure. The effluent from the field dosing tank will be pumped to the surface drip irrigation field. The E-Z Treat recirculation and field dosing tanks are connected to audible and visible highwater alarms. These alarms will alert the operator when too much wastewater has accumulated in the tanks so that he may turn on the pumps to empty the tank. If the property, otherwise specified on the construction drawings, is served by a well system, water will not be used during a power failure. A standby generator shall be provided if stated in the permit statements. East Coast Investors, LLC — Peninsula at Hyco Lake Lot 62 & 63 Surface Drip Irrigation with EZ Treat TS-II Pretreatment MacConnell & Associates, P.C. Project No.: C08662.00 1 Pumps: There are two pumps within the wastewater treatment system. One (1) E-Z Treat treatment unit recirculation pump will be a Sta-Rite 1/2 hp pump (Catalog Number STEP 30). One (1) drip field dosing pump will be provided as specified on the construction drawings, or equivalent as approved by the engineer. Both pumps will be connected to the control panel. Pump efficiency shall be monitored by recording the amperage supplied to the pump. A sudden decrease in efficiency will indicate that the pump must be replaced. Pump replacement can be accomplished by disconnecting pumps from the power supply and unscrewing them from the attached piping. E-Z Treat Treatment Unit: The Model 600 E-Z Treat treatment unit will be used to provide aerobic treatment to the septic tank effluent as well as removing suspended solids not removed by the septic tank. The media filter bed will be housed in the container provided by E-Z Treat. The E-Z Treat treatment unit will be dosed by a Sta-Rite pump (Catalog Number STEP 30,1/2 hp) with a distribution system placed above the styrene media which will discharge onto the media. The underdrain system will transport the E-Z Treat treatment unit effluent back into the recirculation or field dosing / storage tank. Ultraviolet Disinfection Unit: The ultraviolet disinfection unit will be used to treat the E-Z Treat treatment unit effluent before it reaches the field dosing / storage tank. The ultraviolet disinfection unit shall be E-Z Treat (Model E-Z UV 102) or approved equal by engineer. Rain Sensor: A Hunter Mini-Clik rain sensor shall be installed adjacent to the hydraulic unit in an area that will receive precipitation (i.e., that is not covered by trees). The sensor will only be used for the drip irrigation pump to cease operations during wet conditions. The field dosing / storage tank will store the treated wastewater for more than five days; however, it may be necessary to override the control system following large precipitation events if the tank is above capacity. During wet conditions, the sensor will send a signal to the pump controls to inactivate the pump. If it becomes necessary to release wastewater from the tank, the Mini-Clik may be turned off and the pump switched on manually. Drip Irrigation System: The drip irrigation field will be dosed by the field dosing pump. The drip field zoning criteria and drip lines shall follow as specified on the construction drawings. All zones shall operate independently. Each emitter shall be capable of delivering 0.53 gph. Crop Maintenance and Management:_ The drip area should remain as original condition and be planted with a fescue, rye, or Bermuda grass as needed in compacted areas. The wastewater applied to the trees or grass (if needed) will provide ample moisture and nutrients to promote plant growth. All dead trees if applicable, newly grown vegetation and newly grown trees less than 1 inch shall be removed yearly. Weed Eat vegetative cover to a minimum height of 4 inches if applicable to ensure vegetation does not interfere with the system operation. East Coast Investors, LLC — Peninsula at Hyco Lake Lot 62 & 63 Surface Drip Irrigation with EZ Treat TS-II Pretreatment MacConnell & Associates, P.C. Project No.: C08662.00 2 System Operation The wastewater treatment system is designed to dose the E-Z Treat treatment unit every 14 minutes to 20 minutes with 34 gallons of septic tank effluent. If less than 34 gallons of wastewater is available, the low-level signal will inactivate the pump. The control panel will activate the field dosing pump and associated control valve to dose the drip field. Flow to the drip field is designed for a maximum dose as shown on the construction drawings. The volume dosed is controlled by the "run time" set on the dose run/rest interval timer for each zone. The pump will de -energize if the low water level "pump off' float is activated. The flow meter installed in the hydraulic unit will track the volume of wastewater irrigated. If the highwater level "alarm" float switch is activated, the system will energize the audible and flashing alarm fixtures. Once energized, the flashing and audible alarm units may only reset manually. If the alarm light begins flashing after being reset, it means that either there is a clog in the system or the pump has failed. This may be corrected by simply pressing the reset button. If this doesn't energize the pump, the wet well will have to be opened and the pump removed to check for deficiencies or an object that may be clogging the system. If there are no obvious flaws on the pump itself and no objects inside the pump tank, restore the pump and try resetting it again. If the pump still does not work, contact the pump manufacturer. Both the E-Z Treat treatment unit and drip irrigation pump controls shall include, but not be limited to an "auto/manual" system control switch, stop/start switch, non-resetable elapsed time recorder for each pump, and individual pump run lights. The control panel shall contain NEMA 4X enclosures. All supporting control units, if not housed within the pump control panels, shall be in a separate NEMA 4X enclosure. No heavy traffic shall be driven over the treatment units or drip field at any time. This access is restricted in order to protect the health and safety of people. It is important that the drip area in non -wooded or compacted areas be seeded with grasses or trees to establish vegetation. The vegetation will absorb any nutrients remaining in the treated wastewater, and the treated wastewater will promote the growth of the vegetation. The vegetation will absorb any nutrients remaining in the treated wastewater, and the treated wastewater will promote the growth of the vegetation. The vegetation will need to be maintained so that it does not interfere with the performance of the drip irrigation system. System Maintenance To ensure a smooth operating system, regular maintenance shall be performed on each treatment unit. The maintenance for each unit is detailed on the plans and is displayed in the following table. Further system maintenance information shall refer to the manufacturer's literatures. East Coast Investors, LLC — Peninsula at Hyco Lake Lot 62 & 63 Surface Drip Irrigation with EZ Treat TS-II Pretreatment MacConnell & Associates, P.C. Project No.: C08662.00 3 Operation and Maintenance Tasks Unit Frequency Task 3 — 6 months Check for solids accumulation, blockages, or baffle Septic Tank: damage damages, in/exfiltration, pump septage. Septic Tank: solids and 12 months Pump out accumulated solids if necessary, remove scum scum layer. Effluent Filter: Testing 3 — 6 months Check and clean as needed. Effluent Filter: 12 months Replace each time septic tank is pumped. Replacement E-Z Treat Treatment monthly Inspect control/alarm panel, recirculation tank, and E-Z Treat Unit treatment unit (filter pod). weekly Wipe (clean) UV lamp, check intensity and replace lamp Ultraviolet Disinfection when required. Pump Tanks: weekly Check pumps, controls, alarms, elapsed time meters. Pumps and Controls Pump Tanks: 3 — 6 months Check for solids accumulation, or infiltration and Solids and Potential exfiltration. Leaks Pump Tanks: 12 months Remove scum layer when septic tank is pumped. Scum Accumulation 2 — 4 weeks Weed Eat vegetative cover to a minimum height of 4 inches Drip Field: if applicable to ensure vegetation does not interfere with the Vegetation system operation. Drip System: 3 — 6 months Check for leaks in force mains, odors, ponding, and erosion Piping and Distribution to ensure runoff does not occur in drip area. Equipment Pumps, Distribution monthly Check flow meter readout and compare to recorded flows, Piping, and Alarm check pumps for leaks. System Pumps, Distribution quarterly Remove filter covers and inspect for accumulation of debris. Piping, and Alarm System Pumps, Distribution semiannually Remove and lubricate O-Rings on filter canister, replace if Piping, and Alarm damaged. Clean filter discs at hydraulic tubing feed. System annually Remove filter disc cartridge and replace, clean cartridge and store for next annual replacement. Dig along side dripper Pumps, Distribution line and remove small section with emitter, repair with Piping, and Alarm "RAM" couplings and new tubing, inspect removed tubing System for excess slime or buildup. Flush dripper lines with chemical solution as needed. Check and or replace batteries in flow meter. Control Panel and 6-12 Check amp readout and compare to manufacturers Pump Efficiency months instructions. *Tanks should not be pumped during wet conditions. East Coast Investors, LLC — Peninsula at Hyco Lake Lot 62 & 63 Surface Drip Irrigation with EZ Treat TS-II Pretreatment MacConnell & Associates, P.C. Project No.: C08662.00 Ez �a„WEAT Re -Circulating Synthetic Filter Operation and Maintenance Manual NSF. Models bearing the NSF mark are certified Class I to one or more of thefollowing standards: NSF/ANSI 40 NSF/ANSI245 NSF/ANSI 350 ©2017 E-Z Treat 2-2017 n TABLE OF CONTENTS 1.0 General Instructions 2.0 Basic Operation and Maintenance Requirements 2.1 Septic Tank 2.2 Re -Circulation Tank 2.3 Control Panel/Pumps/Alarms 2.4 E-Z Treat Re -circulating Synthetic Filter 2.5 Cleaning the Filter Media 2.6 Replacement of Media Mattress 3.0 Attention System Owner and Users 1 2 2 3 3 4 5 6 7 1.0 General Instructions E-Z Treat Company requires regular life time inspection and lifetime maintenance of the E-Z Treat Re -circulating Synthetic Filter, as a condition of purchase and ongoing operational compliance. The inspection and maintenance interval should be no less than annually. For NSF listed systems or per applicable state regulatory requirements, the inspection and service interval shall be a minimum of every 6 months for the first two years and at a frequency per state regulations there- after. The mandatory service contract will include a performance based system inspection. The service provider must be trained and certified by E-Z Treat Company or authorized representative. All inspection and maintenance reports must be forwarded, along with any additional documentation, to E-Z Treat Company, the local authorized E-Z Treat Dealer, and all required or designated regulatory agencies. This manual contains a list of the routine maintenance procedures that are required by E-Z Treat Company. Failure to perform the required system maintenance could reduce the desired performance of the system and will void the warranty on the E-Z Treat Re -circulating Synthetic Filter system. The E-Z Treat Re -circulating Synthetic Filter system should be inspected by an authorized service provider at start-up and for all inspections thereafter. E-Z Treat Re -Circulating Synthetic Filter Pods Model 600 Model 1200 Pods can be configured in multiples for higher flow systems. Call: 703.753.4770 or visit: eztreat.net ©2017 E-Z Treat 2.0 Basic Operation and Maintenance Requirements 2.1 Septic Tank The septic and re -circulation tank shall be inspected annually to ensure they are oper- ating properly. Remove the access covers over the tank openings to perform the inspection. 1. Verify the lid and riser assemblies are watertight. Check for any damaged, water weeping marks, holes or cracks. The system must remain watertight to perform properly. -0 2. Remove, clean and replace the outlet (D effluent filter in accordance with the 01 instructions provided by the effluent filter r+ manufacturer. O 3. Inspect the liquid level in the septic tank, it should be level with the bottom of the Q outlet pipe. 3 4. Inspect the effluent and scum layers in the septic tank. Look for oil or any other 5, r-F contaminants that are not normal. fD 5. Verify the tank has received its scheduled pumping and cleaning. Check the solids n layer in each of the tanks. If the solids layer (D is excessive have the tank pumped. 3 d C 2.2 Re -Circulation Tank The re -circulation tank shall be inspected annually to ensure it is operating properly. Remove the access covers over the tank openings to perform the inspection. Verify that the lid and riser assemblies are watertight. Check for any damaged, water weeping marks, holes or cracks, the system must remain watertight to perform properly. 1. Inspect the liquid level in the re -circulation tank, it should be level with the bottom of the outlet pipe. At initial system start-up, remove the end caps from the spray manifold. Operate the re -circulation pump by turning the pump control to the "HAND -ON" position. Let the pump run for one minute then turn the pump control to the "OFF" position repeat this procedure three times to flush any construction debris such as dirt or pipe shavings from the spray manifold. Replace the end caps hand tight —do not use wrenches or pliers. Re -set the pump con- trol selector switch to the "AUTO" position. Inspect the float by-pass valve. Manually start the re -circulation pump and observe the float ball valve, the ball should drop as the liquid in the re -circulation tank drops the effluent returning from the E-Z Treat pod should flow back into the re -circulation tank and should not flow out the discharge pipe. 4. Verify that all the re -circulation pump floats are in good condition, properly secured to the float bracket and are able to move freely within the re -circulation tank. Observe the system as it re -circulates. Visually verify all flows through the system. Call: 703.753.4770 or visit: eztreat.net ©2017 E-Z Treat r� 2.3 Control Panel/Pumps/Alarms 1. Check the functions of the E-Z Treat Re -circulating Synthetic Filter control panel. Control: Main Control "ON/OFF" switch Function: Turns power ON or OFF Control: System Setting Switch "MANUAL ON" and "AUTO ON" Function: "MANUAL ON" overrides all float switches and time clock switches "AUTO ON" allows for normal operations dictated by the time clock and float switches. Control: Timer "MINUTES ON" and "MINUTES OFF" Function: Controls run time of re -circulation pump i.e. GPD re -circulated through media. Control: High and Low Water Alarm "ALARM ON", "ALARM AUTO" and "ALARM SILENCE" Function: "ALARM ON" will manually turn on the audio/visual alarms. "ALARM AUTO" is the normal operational setting and "ALARM SILENCE"turns off the alarms. Check re -circulation pump. Place the system in the manual mode by turning the recircula- tion pump switch to "ON". The re -circulation pump should begin to supply effluent to the spray nozzles in the treatment pod. 2. Check the voltage and motor amp draw and record the readings. If the readings are beyond the limits of the NEC recom- mendations, have an electrician check the main service line feeding the system control panel. Light will burn Green to indicate re -circulation Pump is OFF. Light will burn RED to ► indicate re -circulation Pump is ON. Rotate dial to desired minutes ON. Clock face screw will change the clock face from a maximum time of 1.5 units to a maximum of 30 units. Always set the clock face to 30. -o­;w OMPM H3CA Rotate dial to desired minutes OFF. Call: 703.753.4770 or visit: eztreat.net 3. Place the system in the normal operating mode by turning the re -circulation pump switch to "AUTO". Verify the timer ON/OFF settings are the same as set at system start-up. Record those timer settings in the system log. 4. Verify the accuracy of the system ON/OFF Timer. To accomplish this use a stop watch and verify the length of time the re -circulation pump is OFF then verify the time the re -circulation pump is ON, those times should match the ON/OFF Timer settings in the control panel. Window will display OFF "Sec", "Min" or "He'. Rotate OFF screw until -d*- "Min" appears in window. OFF screw displays seconds, minutes or hours. Window wiill display ON "Sec", "Min" or "He'. . •w- Rotate ON screw until "Min" appears in window. ON tON screw displays seconds, minutes or hours. ©2017 E-Z Treat 3 5. Confirm the operation of the visual and audible "HIGH" and "LOW" water alarms. The control has an alarm switch clearly marked Alarm "ON", Alarm "AUTO" and Alarm "SILENCE" Place the alarm switch in the "ON" position, you will hear a loud buzzer and see a red flashing light. Move the switch to the Alarm" SILENCE" position the red light and buzzer will go dormant. 6.Once the alarms have been triggered return all settings to their original position of Alarm "AUTO" (If applicable, verify the operation of the telemetry unit by checking the alarm notations on the website.) 2.4 E-Z Treat Re -circulating Synthetic Filter 7. Verify the floats are operational by manually raising and lowering the floats to simulate the systems normal operation. Verify proper operation of "High Level Float" by lifting the float while the system T is in the "OFF" time mode, the re -circulation pump should turn on over riding the "OFF" timer, the Visual and Audible alarms should activate. Return the float to its normal position the re -circulation pump will turn off. Reset the alarms and manually lower the "Low Water Float" with the timer in the "ON' mode, the re -circulation pump will turn off and the visual/audible alarms will activate. Return the float to the normal position and the re -circulation pump will run. Reset the alarms. 8. Properly re -install and secure all tank accesses! The E-Z Treat Re -circulating Synthetic Filter should be inspected to ensure it is operating properly. Remove the pod cover to perform this inspection. Each E-Z Treat system should be installed with a sample box located on the final discharge side of the treatment system, this sample box is ideal for grab samples. If the installer failed to install a sample box grab samples can be taken from the pump discharge tank. Many state regulations include instructions for taking grab samples those rules and procedures supersede E-Z Treat. 1. Take a grab sample of the effluent check for: a. Odor, the effluent may have an earthy or musty smell there should be no strong or offensive odors present. b. Color, the effluent should be clear and absent of any color. c. Solids, there should be no visible suspended solids d. Solids, let sample set for 15 minutes, there should be no visible settling of solids. e. Test the pH, it should measure 6.9 to 7.5 If there is odor, color or solids clean the media If the pH is below 6.9 reduce the re -circulation rate by increasing to "OFF" time on the Time Clock Control. Recheck the pH in 90 days. Call: 703.753.4770 or visit: eztreat.net 2.Observe the spray distribution nozzles during operation. If a nozzle appears to be clogged or if the spray pattern is not uniform, remove the nozzle and clean the nozzle using a pipe stem cleaning brush. 3. Record the pressure reading on the dis- tribution manifold gauge. Compare that pressure to the pressure recorded at the previous inspection. The pressure should read 18 to 25 PSI. a. Verify the pressure gauge on the spray distribution manifold is performing properly. b. Verify the flow rate at the spray nozzles (it should be 1.75 to 2 GPM). c. Verify the re -circulation pump is the same make and model pump that was specified for the original installation. ©2017 E-Z Treat !y r+ O� d CL 3 r+ (D n (D 3 C Oi d. Verify the re -circulation pump is per- 4. Verify the treatment pod is properly draining forming in accordance to the pump by looking down the pod side wall vents, manufacturers` specifications including there should be no standing water, the amp draw and flows at specific pressures. bottom of the pod should be visible. e. If the pressure is above the prior record- ing or above the start up setting, open 5. Visually inspect the surface of the treatment the ends of the distribution manifold lines, media for: manually start the re -circulation pump and a. Holes, tears, loose seams allow it to run for 5 minutes. This should b. Foreign material flush out the spray distribution lines. If the pressure remains too high, after cleaning the spray nozzles and flushing the spray distribution lines, adjust the pressure to the desired PSI using the ball valve on the main spray distribution supply line. f. If the pressure/flow is too low check for cracks, breaks or obstructions in the main distribution supply line. 2.5 Cleaning the Filter Media c. Black color on media (media should have light brown tint) d. Excessive bio mat growth e. Ponding f. Clumping of the media. Note: If any of these conditions exist the media needs to be cleaned. Depending upon influent strength and influent volumes, excessive biological growth can accumulate inside and on the surface of the media filter after 7 to 10 years of use. Cleaning of the media is a very simple and easy 10-step process: Step 1: Turnoff power to any discharge pump. Step 2: Remove the treatment pod cover and remove the spray distribution manifold. Step 3: Connect wash down hose to the main spray distribution supply line. Step 4: Manually turn on the re -circulation pump. Step 5: Pressure wash the surface of the media mattress, the wash water will drain into the re -circulation tank and will be re -used as wash water. Step 6: Roll the media mattress and wash the sides and bottom of the media mattress. Step 7: After the media is completely cleaned properly place the media mattress in the treatment pod. Step 8: Re -Install the spray distribution manifold. Step 9: Pump out and clean the re -circulation tank removing all the wash down water. Pump out the septic tank. Step 10: Turn on power to discharge system and return the treatment system from "Manual" mode to "Automatic" mode. Call: 703.753.4770 or visit: eztreat.net ©2017 E-Z Treat L•J 2.6 Replacement of Media Mattress If the filter media is exposed to excessive concentrations of petroleum products, paints, glues, waxes etc. it will become necessary to replace the media. The replacement process it is a very fast and simple. Removing the media mattress should be performed by service agents that are trained and certified by E-Z Treat Company. Step 1: Turnoff power to re -circulation pump, discharge pump and controls. Step 2: Pump the septic tank and re -circulation tank to assure continued service by residence during the replacement. Step 3: Remove the spray distribution manifold. Step 4: Lift the media mattress out of the filter pod. Step 5: Place the mattress into the fiberglass transport container provided by E-Z Treat Company. The container is easily hauled in a pickup truck or on a light duty trailer. Step 6: Install new filter media and replace distribution manifold. Step 7: Reset all system control settings to "AUTO" and turn the main power switch to the "ON" position. Once the mattress is returned to E-Z Treat Company, the styrene material will be sent to the nearest recycling facility for processing. Alternatively, the service provider can transport the mattress to the nearest styrene recycling facility for processing. Call: 703.753.4770 or visit: eztreat.net ©2017 E-Z Treat r� 3.0 Attention System Owner and Users CAUTION Do Not open or enter any system components for any reason. If a problem exists or you have questions about your system, call your authorized service provider. Once the E-Z Treat Re -circulating Synthetic Filter system is installed, a post -construction conference is recommended. This is an opportunity to familiarize the owner with the system. No attempt should be made to adjust any component of this system except by a Certified Operator. The E-Z Treat Re -circulating Synthetic Filter system allows the homeowner to receive a high quality, reliable and economical wastewater system that protects the environment. As with any onsite wastewater treatment system, the homeowner should be familiar with basic guidelines which help the system achieve repetitive, reliable performance. Please do not hesitate to contact your certified operator or E-Z Treat Company with any questions, concerns or comments about your E-Z Treat Re -circulating Synthetic Filter system. Users of the System —Remember! To assure proper performance of your E-Z Treat Re -circulating Synthetic Filter, you should avoid disposing of the following products into your septic tank: ■ Oil & Grease (kitchen waste) ■ Water Softener backwash ■ Wax & resins ■ Petroleum Products r Paint & Paint Solvents ■ Pesticides ■ Condoms & sanitary napkins ■ Toxic substances (Liquid Plumber, Drano, etc.) ■ Non -Biodegradable products (cigarette butts, antibacterial wipes, etc.) ■ Any kind of septic tank additive (Rid-X, etc.) Owners of the System —Remember! ■ Keep heavy loads and traffic off of your onsite system components and drainfield. ■ Never drive cars or trucks within 10 feet of any system access lids. ■ Landscaping or future building projects should be planned with the drainfield and drainfield repair area in mind. ■ Do not shovel or blow snow on top of your onsite wastewater system. This will temporarily limit access to your system and could overload and damage the system. ■ Make sure drainage from the house or around the property is carried away from your onsite system. DO NOT OPEN OR ENTER ANY OF THE TREATMENT SYSTEM TANKS. SEPTIC GASSES CAN BE TOXIC, CAUSING SERIOUS INJURY OR DEATH! Call: 703.753.4770 or visit: eztreat.net ©2017 E-Z Treat E-Z Q&YTREAT PO Box 176 Haymarket, Virginia 20168 T 703.753.4770 F 571.248.8837 eztreat.net ©2017 E-Z Treat 2-2017 E-Z Treat Company, Inc. Residential Applications 2-Year Limited Warranty PO Box 176 Haymarket, Virginia 20168 1. Preamble E-Z Treat Company (herein referred to as "E-Z Treat) is known for researching, designing, and producing innovative products of high quality for the onsite wastewater industry. We are proud to stand behind our E-Z Treat Sand/Media Filter. For the purpose of this warranty, "Service Provider" means the legal Certified Operator of the system. This Service Provider shall be currently listed on State and Local records as meeting any applicable requirements required by law and/or Rule. Also, for purposes of this document, "Installer" means the person or company that has installed the system, and "Owner" means the person that has purchased the system or purchased the property serviced by the system. 2. Nature of Warranty E-Z Treat warrants to the Owner that the E-Z Treat Sand/Media Filter will function within prescribed limits for a period of two years from the date of purchase. E-Z Treat also warrants certian components of the system against materials, workmanship and manufacturing defects for a period of two (2) years from the date of installation. This warranty is in addition to the legal warranties and Owner's rights in accordance to applicable law. The conventional warranty of E-Z Treat is expressly limited to the text in this certificate. Owner is responsible for reasonable care and communication with the Certified Operator. 3. Obtaining Warranty Service To make a claim on this warranty, the Owner should put the request in writing and mail or deliver to an authorized E-Z Treat Certified Operator. The claim will be processed and sent to E-Z Treat headquarters. Any claim must be received no later than two year from the date of purchase of the E-Z Treat Sand/Media Filter. On receipt of this claim, E-Z Treat or their authorized representative will examine the situation at the site and take corrective action where the terms of the warranty apply. 4. Exclusions and Limitations E-Z Treat Company Warranty only extends to replacement parts the labor for installing those parts is not part of this warranty. Any electrical device or electrical component is excluded from this warranty including replacement parts and labor. 33 E-Z Treat is not liable for the dispersal portion of the onsite wastewater system. This portion of the system is evaluated, designed and constructed in accordance with local regulations and is wholly separate from the performance of the E-Z Treat Sand/Media Filter. The following conditions are also excluded from the E-Z Treat warranty: • This warranty does not cover cosmetic damage or damage due to acts of Nature, misuse, abuse, modification, incorrect design or incorrect installation. • The warranty is void if any modifications or repairs are made to the system by anyone other than an E-Z Treat approved agent. • Failure of the Owner to comply with the requirements set forth in the Owner's Manual. • The warranty is void if any system components are repaired or replaced by parts not supplied or approved by E-Z Treat. • This warranty is not applicable to systems not receiving domestic, residential sewage. • The warranty is void if it is found that the Owner has failed to notify E-Z Treat of any change in the use of the property from its original design. 5. Indemnities and Damages E-Z Treat's liability and obligations under this warranty for corrective measures or means of correction shall be limited to the replacement of the E-Z Treat Sand/Media Filter Components. 6. Limitations of Damages E-Z Treat is not liable for any damages sustained by the Owner. E-Z Treat's compensation and indemnification obligations are limited to the provisions of this warranty 7. Transfer of Ownership In the event of transfer of ownership within two years of use, this warranty shall transfer to the new Owner for the remainder of the period under the following conditions: a. The New Owner has a Certified Operator under contract. b. An Inspection of the E-Z Treat Sand/Media shall be conducted prior to transfer. Upon a satisfactory inspection, the Owner shall obtain a written report from the Certified Operator 8. Inspection The Owner shall allow the Certified Operator access to the property and system components for purposes of necessary monitoring and service. If the Owner submits a request of claim under this warranty and it is found to be in error after inspection, a charge for direct expenses will be billed to the customer to cover the cost of the inspection. 9. Priorities of the Warranty This warranty supersedes any contract or understanding, verbal or written, entered into between the Owner, Certified Operator, Installer, or Representative of E-Z Treat. 0 SYSTEM MAINTENANCE It is recommended that the system receive routine maintenance, at least annually. Please check your State and local regulations for required frequency of inspection. ROUTINE AND PREVENTATIVE MAINTENANCE 1) Remove the filter and clean, or install a clean filter element. 2) Open the field flush valve and flush the field for 5-10 minutes by activating the pump in "manual" position. Close the flush valve (on systems with manual flush valves, close the field flush valve until design field pressure is reached). 3) With the pump in the "manual" position, check the pressure in the drip field by using a pressure gauge on the Schrader valve (located on the air vents), and by reading the pressure gauge located in the Headworks box. The pressure should be close to the same as shown on the initial installation records. 4) Remove the lids on the vacuum breaker and check for proper operation. If water is seen leaking from the top of the vacuum breaker, remove the cap of the vacuum breaker and check for debris. 5) Turn off the pump. 6) Periodically remove and clean the air vents, field flush and filter flush valves. 7) Visually check and report the condition of the drip field, including any noticeable wetness/variations. 8) Treatment and distribution tanks are to be inspected routinely and maintained when necessary in accordance with the manufacturer's recommendations/State regulations. 9) Record the date of inspection as well as readings from elapsed time meter, pump counter, peak counter, high-level counter, power fail counter and any other logs provided in system controls. Double check the settings of the control panel to be sure no one has tampered with them since the last inspection. 10) Reset the controller(s) for automatic operation before leaving. December 2008 Page 18 HOME OWNERS GUIDE FOR CARE AND MAINTENANCE OF DRIP DISPERSAL FIELD A drip system has been installed on your property for the dispersal of the effluent from your home The drip dispersal system consists of a series of diameter drip tubing. It is designed to effectively disperse of the treated effluent using a combination of soil absorption and plant uptake. Your drip dispersal system will function for many years with only minimal maintenance being required, provided the following recommendations are followed: ❑ Establish landscaping immediately over subsurface system. This will stabilize the soil and allow for the grass to take up the water. ❑ Do not discharge sump pumps, footing drains or other sources of water to the system, except for the effluent discharge from your treatment system. ❑ Maintain all plumbing fixtures to prevent excess water from entering the dispersal system. ❑ Do not drive cars, trucks or other heavy equipment over the drip dispersal field. This can damage the drip components or the soil and cause the system to malfunction. ❑ Do not drive tent stakes, golf putting holes, croquet hoops, etc. into the dispersal field. ❑ Contact your service company if your alarm should sound. The pump chamber is sized to allow additional storage after the alarm sounds but you should refrain from excessive water usage (i.e., laundry) until the system has been checked. Contact your service company if you notice any areas of excessive wetness in the field. There may be some initial wetness over the driplines following the initial installation. This should stop once the ground has settled and a vegetative cover is established December 2008 Page 19 E Z4W�f1TREAT Re -Circulating Synthetic Filter AM Installation and Maintenance Guide Note: Maintenance Only Installation is in Equipment Section NSF. Models bearing the NSF mark are certified Class I to one or more of the following standards: NSF/ANSI 40 NSF/ANSI245 NSFIANS1350 ©2017E-ZTreat 2-2017 TABLE OF CONTENTS Installation 2.0 UV Light System Maintenance i���i�i�aiim� r ■��:� ��• �•wu�o�R�uuiiw�u����uwi } 2.0 UV Light System Maintenance The UV lamps quartz tubes (housing the lamps) must be cleaned at a minimum frequency of every 12 months. Caution: Do not run UV lamps dry. Caution: Always turn off the power to the UV system Fill UV housing with water/effluent before any maintenance is performed. Use extreme before turning on power. care when handling the fragile UV lamp assembly. a Step is Turn power "OFF" to the UV system'. Step 2: Unscrew the fitting holding the UV lamp and quartz sleeve. CStep 3: Lift the UV lamp assembly upward until it is clear of the housing. Step 4: Using a clean, damp sponge or clean, soft cloth, wipe all residue from the quartz tube. CA Clean stubborn, dirty areas with a liquid glass cleaning product. Caution: DO NOT scrape or use scouring pads. This may scratch the quartz tube and alter the performance of the UV system. r+ Q' Step 5: Visually inspect each quartz tube for cracks or breaks; replace any UV lamp assembly 0 that is cracked, scratched, or broken. 0 C Step 6: Re-insert the UV lamp assembly into the housing and tighten the fitting that holds Q. the UV lamp and quartz sleeve. Caution: (Hand -Tighten Only) M DO NOT use wrenches, pliers, or other tools to tighten. Step 7: Turn power "ON" to the UV system. Call: 703.753.4770 or visit: eztreat.net ©2017 E-z Treat E Z&TREAT PO Box 176 Haymarket, Virginia 20168 T 703.753.4770 F 571.248.8837 eztreat.net 02017 E-Z Treat 2-2017 East Coast Investors, LLC Lot 62 & 63 Peninsula at Hyco Lake Person County, North Carolina Operation & Maintenance Agreement MacConnell & Associates, P.C. 501 Cascade Pointe Lane, Suite 103 Cary, North Carolina 27513 P.O. Box 129 Morrisville, North Carolina 27560 Phone: (919) 467-1239 Fax: (919) 319-6510 DWR, Division of Water Resources Permit No. WQ00 State of North Carolina Department of Environmental Quality Division of Water Resources SINGLE-FAMILY RESIDENCE WASTEWATER IRRIGATION SYSTEM OPERATION AND MAINTENANCE AGREEMENT FORM: SFRWWIS-O&M 09-18 County: Person Permittee: (i.e., all deeded property owners) The Permittee agrees to operate and maintain the single-family residence wastewater treatment and irrigation system as follows: 1. Inspect the septic tank annually, and pump out solids as needed. 2. Inspect and clean the septic tank effluent filter annually_ (if applicable) 3. Inspect the tablet chlorinator weekly. Add wastewater grade chlorine tablets (e.g., calcium hypochlorite) as needed. Swimming pool grade chlorine tablets are not acceptable. (if applicable) 4. Inspect the ultraviolet disinfection unit weekly. Clean or replace the lamps and quartz sleeves as needed. (if applicable) 5. Inspect all storage tanks, pumps, and alarms monthly. Remove the floating scum layer in all pump/storage tanks when pumping the septic tank solids out. 6. Inspect the spray irrigation system monthly to verify: proper operation of the spray heads; that there are no leaks; that vegetative growth does not obstruct the spray heads; that the irrigated wastewater is not ponding in or running off the designated irrigation area; and that there are no objectionable odors. (if applicable) 7. Inspect the drip irrigation system monthly to verify: proper operation of the drip lines; that there are no leaks; that vegetative growth does not obstruct the drip emitters; that the irrigated wastewater is not ponding in or running off the designated irrigation area; and that there are no objectionable odors. (if applicable) 8. Maintain a set of Division -approved engineering plans and specifications. 9. Pay the required annual fee. 10. Request renewal of this permit on Division -approved forms no later than 180 days prior to expiration. 11. Sign and provide a Change of Ownership application to any future owner of the single-family residence wastewater treatment and irrigation system for their completion and submission to the Division of Water Resources. We understand the above requirements and agree to these terms as part of the issued permit. Signature: Date: / EA ST Gor} s-t- tN S_T_brt3, G' Signature: Date: Signature: Date: Signature: Date: All deeded Property owners shall si n this Operation and Maintenance Agreement FORM: SFRWWIS-O&M 09-18 Page 1 of 1 East Coast Investors, LLC Lot 62 & 63 Peninsula at Hyco Lake Person County, North Carolina County Health Department Denial Letter MacConnell & Associates, P.C. 501 Cascade Pointe Lane, Suite 103 Cary, North Carolina 27513 P.O. Box 129 Morrisville, North Carolina 27560 Phone: (919) 467-1239 Fax: (919) 319-6510 PERSON COUNTY PIPI :IL►•Ii Chris Murray Piedmont Environmental Associates 216 S. Swing Rd. Suite 1 Greensboro NC 27409 ensciring a healthy environment: Re: Application for improvement Permit for property located at Peninsula S/D Lot 62&63 Health Department file Tax Map # A14 Parcel # 165 Dear Mr. Murray: The Person County Health Department, Environmental Health Division, on 2/21/2024, evaluated the above - referenced property at the site designated on the plat/site plan that accompanied your Improvement Permit application. According to your application the site is to serve a 3 bedroom residence with a design wastewater flow of 360 gallons per day. The evaluation was done in accordance with the laws and rules governing on -site wastewater systems in General Statutes 130A-333 to 345 and 15A NCAC 18E. Based on the criteria set out in 15A NCAC 18E .0501 through .0602, the evaluation indicated that the site is UNSUITABLE for an on -site wastewater system. Therefore, we must deny your request for an Improvement Permit. A copy of the site evaluation is enclosed. The site is unsuitable based on the following: ® Unsuitable soil topography and/or landscape position (Rule .0502) ® Unsuitable soil characteristics (structure or clay mineralogy) (Rule .0503) ❑ Unsuitable soil wetness condition (Rule .0504) ® Unsuitable soil depth (Rule .0505) ❑ Unsuitable saprolite (Rule .0506) ❑ Presence of restrictive horizon (Rule .0507) ® Insufficient space for septic system and repair area (Rule .0508) ❑ Unsuitable for meeting required setbacks (Rule .0601 or .0602) ❑ Other (Cite applicable rule): These severe soil or site limitations could cause premature system failure, leading to the discharge of untreated sewage on the ground surface, into surface waters, directly to ground water, or inside your structure. The site evaluation included consideration of possible site modifications, as well as use of all possible systems approved under 15A NCAC 18E. However, the Health Department has determined that none of the above Phone 336.597-1790 Fax 336.597-7808 325 South Morgan Street, Suite C, Roxboro, NC 27573 options will overcome the severe conditions on this site. A possible option might be a system designed to dispose of sewage to another area of suitable soil such as off -site to additional property. For the reasons set out above, the property is currently classified UNSUITABLE, and no Improvement Permit shall be issued for this site in accordance with Rule .0509(a) and (d). A site classified as UNSUITABLE may be classified as SUITABLE if written documentation is provided that meets the requirements of Rule .0509(b) or (c). A copy of this rule is enclosed. You may hire a consultant to assist you if you wish to try to develop a plan under which your site could be reclassified as SUITABLE. You have a right to an informal review of this decision. You may request an informal review by the soil scientist or environmental health supervisor at the local health department. You may also request an informal review by the Department of Health and Human Services' Regional Soil Scientist. A request for informal review must be made in writing to the local health department. You also have a right to a formal appeal of this decision. To pursue a formal appeal, you must file a petition for a contested case hearing with the Office of Administrative Hearings, 1711 New Hope Church Rd, Raleigh, NC 27609. To get a copy of a petition form, you may write the Office of Administrative Hearings, call the office at 984-236-1850, or download it from the OAH web site at httpJ/www.oah.nc.gov. The petition for a contested case hearing must be filed in accordance with the provision of General Statutes 130A-24 and 150B-23 and all other applicable provisions of Chapter 150B. General Statute 130A-335(g) provides that your hearing will be held in the county where your property is located. If you wish to pursue a formal appeal, you must file the petition form with the Office of Administrative Hearings WITHIN 30 DAYS OF THE DATE OF THIS LETTER. The date of this letter is February 28, 2024. Meeting the 30-day deadline is critical to your formal appeal. If you file a petition for a contested case hearing with the Office of Administrative Hearings, you are required by General Statute 150B-23 to serve a copy of your petition on the Registered Agent for the Department of Health and Human Services: Julie Cronin, Office of General Counsel, Department of Health and Human Services, 2001 Mail Service Center, Raleigh, N.C. 27699-2001. Do not serve the petition on your local health department. Sending a copy of your petition to the local health department will not satisfy the legal requirement in General Statute 150B-23 that you send a copy to the Office of General Counsel, Department of Health and Human Services. You may call or write the local health department if you need any additional information or assistance. Sincerely, Environmental Health Program Specialist Person County Health Department Enclosures: (Enclose copy ofsite evaluation and Rule .0509) Phone 336.597-1790 Fax 336.597-7808 325 South Morgan Street, Suite C, Roxboro, NC 27573 DEPARTMENT OF HEALTH AND HUMAN SERVICES DIVISION OF PUBLIC HEALTH. ENVIRONMENTAL HEALTH SECTION ON -SITE WATER PROTECTION BRANCH Page 1 of PROPERTY 1D #: A14-165 COUNTY: Person SOIL/SITE EVALUATION for ON -SITE WASTEWATER SYSTEM (Complete all fields in foil) OWNER: East Coast Investors LLC DATE EVALUATED: 2/21/2024 ADDRESS: 3129_Springbank Ln STE 200 Charlotte NC PROPOSED FACILITY: 3 BR SFR PROPOSED DESIGN FLOW (.0400): 360 GPD PROPERTY SIZE: LOCATION OF SITE: Watersail Wav LOT 67,4- (03 PROPERTY RECORDED: WATER SUPPLY: ® Public ❑ Single Family Well ❑ Shared Well ❑ Spring ❑ Other WATER SUPPLY SETBACK: EVALUATION METHOD: ® Auger Boring ❑ Pit ❑ Cut TYPE OF WASTEWATER: ® Domestic C High Strength ❑ IPWW P R O F I I_ E # .0502 LANDSCAPE POSITION/ SLOPE % HORIZON DEPTH (IN.) SOIL MORPHOLOGY OTHER PROFILE FACTORS .0509 PROFILE CLASS & LTAR* .0502(d) SLOPE CORRE CTION .0503 STRUCTURE/ TEXTURE .0503 CONSISTENCE/ MINERALOGY .0504 SOIL WETNESS/ COLOR .0505 SOIL DEPTH .0506 SAPRO CLASS .0507 RESTR HORIZ 0— f 0 SeL— sk ,r U q o" �,e ,r UH cj 4- v .; JS V'R I AT 2 ,{ r(�4- cv voek 3 �� •C= 0 - .' l 5cL sbK sQ,c qw, 4-7 4 DESCRIPTION INITIAL SYSTEM REPAIR SYSTEM k ^4r`��� SITE CLASSIFICATION (.0509): } EVALUATED BY: OTHER(S) PRESENT: Available Space (.0508) (,( System Type(s) Site LTAR Maximum 'french Depth Comments: NCDHHS/DPH/EHS/OSWP Revised January 2024 Form SSE-24.2 Y S@ a _ ` n C I O n f( CO --- A m G Z �I Q F :3 N �� 7 ro �� a m a m m �— kv O N N II East Coast Investors, LLC Lot 62 & 63 Peninsula at Hyco Lake Person County, North Carolina Floodway Regulation Compliance MacConnell & Associates, P.C. 501 Cascade Pointe Lane, Suite 103 Cary, North Carolina 27513 P.O. Box 129 Morrisville, North Carolina 27560 Phone: (919) 467-1239 Fax: (919) 319-6510 National Flood Hazard Layer FI RMette *FEMA Legend 79o4'44"W 3690'57" N - I .01uuu 0 250 500 1,000 1,500 2,000 SEE FIS REPORT FOR DETAILED LEGEND AND INDEX MAP FOR FIRM PANEL LAYOUT Without Base Flood Elevation (BFE) Zone A, V, A99 SPECIAL FLOOD Wit hBFE orDepth Zone ae,AO, AH,Ve,Aa HAZARD AREAS Regulatory Floodway OTHER AREAS OF FLOOD HAZARD 0.2% Annual Chance Flood Hazard, Areas of 1% annual chance flood with average depth less than one foot or with drainage areas of less than one square mile Zonex Future Conditions 1% Annual Chance Flood Hazard Zonex Area with Reduced Flood Risk due to Levee. See Notes. Zonex �"1 Area with Flood Risk due to Leveezone D NOSCREEN Area of Minimal Flood Hazard Effective LOMRs OTHER AREAS Area of Undetermined Flood Hazard GENERAL - — - - Channel, Culvert, or Storm Sewer STRUCTURES i I I i I I i Levee, Dike, or Floodwall e zo.z Cross Sections with 1% Annual Chance 17.5 Water Surface Elevation a - - - Coastal Transect —sfa— Base Flood Elevation Line (BFE) Limit of Study Jurisdiction Boundary — --- Coastal Transect Baseline OTHER _ Profile Baseline FEATURES Hydrographic Feature Digital Data Available AN No Digital Data Available MAP PANELS Unmapped The pin displayed on the map is an approximate point selected by the user and does not represent an authoritative property location. This map complies with FEMA's standards for the use of digital flood maps if it is not void as described below. The basemap shown complies with FEMA's basemap accuracy standards The flood hazard information is derived directly from the authoritative NFHL web services provided by FEMA. This map was exported on 6/13/2023 at 11:08 AM and does not reflect changes or amendments subsequent to this date and time. The NFHL and effective information may change or become superseded by new data overtime. This map image is void if the one or more of the following map elements do not appear: basemap imagery, flood zone labels, legend, scale bar, map creation date, community identifiers, FIRM panel number, and FIRM effective date. Map images for unmapped and unmodernized areas cannot be used for regulatory purposes. Basemap Imagery Source: USGS National Map 2023 National Flood Hazard Layer FI RMette *FEMA 79o4'23"W 3690'54"N I .01uuu 0 250 500 1,000 1,500 2,000 Legend SEE FIS REPORT FOR DETAILED LEGEND AND INDEX MAP FOR FIRM PANEL LAYOUT Without Base Flood Elevation (BFE) Zone A, V, A99 SPECIAL FLOOD Wit hBFE orDepth Zone ae,AO, AH,Ve,Aa HAZARD AREAS Regulatory Floodway OTHER AREAS OF FLOOD HAZARD 0.2% Annual Chance Flood Hazard, Areas of 1% annual chance flood with average depth less than one foot or with drainage areas of less than one square mile Zonex Future Conditions 1% Annual NL — Chance Flood Hazard Zonex "I Area with Reduced Flood Risk due to Levee. See Notes. Zonex " Area with Flood Risk due to Leveezone D NOSCREEN Area of Minimal Flood Hazard Effective LOMRs OTHER AREAS Area of Undetermined Flood Hazard GENERAL - — - - Channel, Culvert, or Storm Sewer STRUCTURES i I I i I I i Levee, Dike, or Floodwall e zo.z Cross Sections with 1% Annual Chance 17.5 Water Surface Elevation a - - - Coastal Transect ^^^µsfa— Base Flood Elevation Line (BFE) Limit of Study Jurisdiction Boundary — --- Coastal Transect Baseline OTHER _ Profile Baseline FEATURES Hydrographic Feature Digital Data Available AN No Digital Data Available MAP PANELS Unmapped QThe pin displayed on the map is an approximate point selected by the user and does not represent an authoritative property location. This map complies with FEMA's standards for the use of digital flood maps if it is not void as described below. The basemap shown complies with FEMA's basemap accuracy standards The flood hazard information is derived directly from the authoritative NFHL web services provided by FEMA. This map was exported on 6/13/2023 at 11:11 AM and does not reflect changes or amendments subsequent to this date and time. The NFHL and effective information may change or become superseded by new data overtime. This map image is void if the one or more of the following map elements do not appear: basemap imagery, flood zone labels, legend, scale bar, map creation date, community identifiers, FIRM panel number, and FIRM effective date. Map images for unmapped and unmodernized areas cannot be used for regulatory purposes. Basemap Imagery Source: USGS National Map 2023 East Coast Investors, LLC Lot 62 & 63 Peninsula at Hyco Lake Person County, North Carolina Threatened or Endangered Aquatic Species Documentation MacConnell & Associates, P.C. 501 Cascade Pointe Lane, Suite 103 Cary, North Carolina 27513 P.O. Box 129 Morrisville, North Carolina 27560 Phone: (919) 467-1239 Fax: (919) 319-6510 Roy Cooper, Governor 0■0■� INC DEPARTMENT OF IN ■■NEM NATURAL AND CULTURAL RESOURCES ■ ■■■ June 13, 2023 Chrissa MacConnell Green Global Technologies 501 Cascade Pointe Lane Cary, NC 27513 RE. Hyco Lake - The Peninsula, C08600.00 Dear Chrissa MacConnell: d_ Reid Wilson, Secretary Misty Buchanan Deputy Director, Natural Heritage Program NCNHDE-22289 The North Carolina Natural Heritage Program (NCNHP) appreciates the opportunity to provide information about natural heritage resources for the project referenced above. A query of the NCNHP database, based on the project area mapped with your request, indicates that there are no records for rare species, important natural communities, natural areas, and/or conservation/managed areas within the proposed project boundary, or within a one -mile radius of the project boundary. Please note that although there may be no documentation of natural heritage elements within or near the project boundary, it does not imply or confirm their absence, the area may not have been surveyed. The results of this query should not be substituted for field surveys where suitable habitat exists. In the event that rare species are found within the project area, please contact the NCNHP so that we may update our records. Please also note that natural heritage element data are maintained for the purposes of conservation planning, project review, and scientific research, and are not intended for use as the primary criteria for regulatory decisions. Information provided by the NCNHP database may not be published without prior written notification to the NCNHP, and the NCNHP must be credited as an information source in these publications. Maps of NCNHP data may also not be redistributed without permission. If you have questions regarding the information provided in this letter or need additional assistance, please contact Rodney A. Butler at rod ney.butlerLncdcr.gov or 919.707.8603. Sincerely, NC Natural Heritage Program DEPAR71MENT OF NATURAL AND CULTURAL RESOURCES Q 121 W. JONES STREET, RALEIGH. NC 27603 • 1651 MAIL SERVICE CENTFR. PALEIGH. NC 27699 & OFC 919.707.9>120 • FAX 919.707.912, ��n��inghant �, ry to W N Zion E ej Church Rd June 13, 2023 Q Buffered Project Boundary Q Project Boundary NCNHDE-22289: Hyco Lake - The Peninsula c a o� S o� 0 0.33 0.65 1.3 Miles - Sources: Esn, Airbus IDS, USGS, NCA, NASA, CGIAR, N Robinson, NCEAS, NLS, OS, NMA, Geodatastyrelsen, Rijkswaterstaat, GSA, Geoland, FEMA, Intermap and the GIS user community Sources Esn, HERE, Garmin, FAO, NCAA, USGS, ® OpenStreetMap contributors, and the CIS User Community Page 2 of 2 East Coast Investors, LLC Lot 62 & 63 Peninsula at Hyco Lake Person County, North Carolina = v 051201 _ Flow Reduction MacConnell & Associates, P.C. 501 Cascade Pointe Lane, Suite 103 Cary, North Carolina 27513 P.O. Box 129 Morrisville, North Carolina 27560 Phone: (919) 467-1239 Fax: (919) 319-6510 East Coast Investors, LLC (Sunbelt Land Management) Lot 62 & 63 Peninsula at Hyco Lake Flow Reduction Request Person County, North Carolina Project Number: C08662.00 Date of Preparation: November 30, 2023 PROJECT MA�GEMENT H SE L a 051201 v ' t $NGINE�� Supporting Information & Technical Specifications Prepared By: MacConnell & Associates, P.C. Full -Service Consulting Engineers 501 Cascade Pointe Lane, Ste 103 Cary, North Carolina 27513 0��Cc�NNELL & ASSOCIATES, P.C. Post Office Box 129 Morrisville, North Carolina 27560 Telephone: (919) 467-1239 Fax: (919) 319-6510 P.O. Box 129 501 Cascade Pointe Lane Suite 103 Morrisville, NC 27560 0 Cary, NC 27513 (919) 467-1239 MacCONNELL & Associates, P.C. www.macconnellandassoc.com "Engineering Today For Tomorrow's Future" Technical Memorandum To: Person County Health Department Date: November 30, 2023 Client: East Coast Investors, LLC From: David Barcal, P.E. Subject: Peninsula at Hyco Lake Lot 62 & 63 Project No.: C08662.00 This technical memorandum is a request for a design daily flow exemption to a residential dwelling using low flow fixtures as provided for in Session Law 2013-413 (House Bill 74) and Session Law 2014-120 Section 53 which relates to Rule 15A NCAC 18A .1949. Neither the State nor local health department shall be liable for any damages caused by an engineered system approved or permitted pursuant to Session Law 2014-120 Section 53. East Coast Investors, LLC is permitting the property located at Lot 62 & 63 of Peninsula at Hyco Lake in Person County, NC. A copy of the soils report can be found in the Soils Evaluation section of this application package. MacConnell & Associates, P.C. (M&A) is requesting a 25 percent flow reduction, using low -flow fixtures, to be incorporated into the design so that the home may be permitted as a 3-bedroom without needing to increase the size of the drainfield. The proposed treatment system is sized for the unadjusted flow of 360-GPD. The proposed initial and repair drainfields are sized for the reduced design flow of 270-GPD. This request is for a flow reduction per provisions provided in Session Law 2013-413 and Session Law 2014-120. Typically, the basis for the design flow is provided in 15A NCAC 18A and prior regulations. The applicable regulations which preceded the 15A NCAC 18A rules and which served as the basis in determining flow in the 15A NCAC 18A rules: dates well before The Energy Policy Act of 1992 which established maximum flow rates for various fixtures in a nationwide effort to reduce both energy and water use. The flows which were established in the Act have recently been further reduced through the WaterSense program, which allows for labeling of fixtures which meet minimum criteria and conserve water. Specifications for each fixture model can be found in the Proposed Fixtures section of this application package. A summary of the fixtures and flow rates can be found below in Table 1. A washing machine will be installed by the Owner in the future, so to calculate flow rates, M&A has elected to go with the base -rule flow to provide a conservative estimate. Table 1. Flow rates of proposed fixtures installed by builder. Fixture Manufacturer Flow Units Rate Kitchen Faucet Delta/9159-DSF 1.8 GPM Bathroom Faucet Delta/35749LF 1.2 GPM Master Bathroom Faucet Delta/2559-MPU-DST 1.2 GPM Showerheads Delta/52680 2.5 GPM Toilets Delta/C43913 1.28 GPF Table 2 identifies the type of fixture, flows for fixtures based on the 15A NCAC 18A rules (Flow A), and flows for proposed fixtures (Flow B). The savings or water conservation from both the rule -based flows and proposed conditions are presented in both flow and percent below (Table 2). Table 2. Savings of water from rule -based flows with the proposed fixtures. Fixture A to B Base/Rule Proposed A to B Fixture Units % Flow A Flow B Savings Savings Kitchen Faucet GPM 3.0 1.8 1.2 40% Bathroom Faucet GPM 3.0 1.2 1.8 60% Showerhead GPM 5.5 2.5 3.0 55% Toilet GPF 3.5 1.28 2.2 63% Clothes Washer GPL 32.0 32.0 0.0 0% Documentation for the above values is presented at the end of this discussion. The documentation includes: 1. Rule basis of flow and effective dates of rule. 2. Typical indoor water use. 3. Proposed fixtures. 4. Supporting documentation including historical flow rates for fixtures. 5. Technical Advisory Council Report for Wastewater Flows from Single Family Dwellings 6. Existing Information. The projected flows using rule -based design flowrates would be: Unadjusted Design Flow per Rule (15A NCAC 18A and prior regulations) Description No. Flow/Unit Total Bedrooms 3 120 GPD 360 GPD Total 360 GPD Using the information presented above on flow A and B, the projected water use is presented in Table 3 below. The savings presented are from fixture rates when the rules were made effective in comparison to the flow rates with the proposed fixtures. Fixture Table 3. Estimated Water Use with Proposed Fixtures % Base Flow % Savings Adjusted Use GPD Savings GPD GPD Kitchen Faucet 6% 22 40% 9 13 Bathroom Faucet Showerhead Toilet Clothes Washer Leaks & Other Total 10% 36 60% 22 14 19% 68 55% 37 31 28% 101 63% 64 37 22% 79 0% 0 79 15% 54 0% 0 54 100% 360 37% 131 229 63 % The projected flow of 229 GPD is approximately sixty-three percent of the design flow which we have found to be typical of homes with water conscious fixtures. We are requesting a 25 percent reduction or a design flow for subsurface disposal of 270 GPD. Analysis of wastewater shows that with the flow reduction, the waste is not considered high strength at presented below: Table 4. Estimated Proposed Effluent Concentration Base Flow Concentration Reduced Flow Concentration High (220/1-.25) Strength BODs 220 mg/l 293 mg/l 350 mg/l TSS 220 mg/l 293 mg/l 350 mg/l Thus, the effluent from the septic tank is expected to be similar to a non -reduced flow effluent. Based on this analysis, the use of low -flow fixtures provides sufficient remaining capacity. We respectfully ask for acceptance of this proposal. 3 Table of Contents 1. Rule basis of flow and effective dates of rule. 2. Typical indoor water use. 3. Proposed fixtures. 4. Supporting documentation including historical flow rates for fixtures and washer. 5. Technical Advisory Council Report for Wastewater Flows from Single Family Dwellings. 1. Rule basis of flow and effective dates of rule. 15A NCAC 18A .1949 SEWAGE FLOW RATES FOR DESIGN UNITS (a) In determining the volume of sewage from dwelling units, the flow rate shall be 120 gallons per day per bedroom. The minimum volume of sewage from each dwelling unit shall be 240 gallons per day and each additional bedroom above two bedrooms shall increase the volume of sewage by 120 gallons per day. In determining the number of bedrooms in a dwelling unit, each bedroom and any other room or addition that can reasonably be expected to function as a bedroom shall be considered a bedroom for design purposes. When the occupancy of a dwelling unit exceeds two persons per bedroom, the volume of sewage shall be determined by the maximum occupancy at a rate of 60 gallons per person per day. (b) Table No. I shall be used to determine the minimum design daily flow of sewage required in calculating the design volume of sanitary sewage systems to serve selected types of establishments. The minimum design volume of sewage from any establishment shall be 100 gallons per day. Design of sewage treatment and disposal systems for establishments not identified in this Rule shall be determined using available flow data, water -using fixtures, occupancy or operation patterns, and other measured data. TABLE NO. I TYPE OF ESTABLISHMENT DAILY FLOW FOR DESIGN Airports 5 gal/passenger (Also R.R. stations, bus terminals --not including food service facilities) Barber Shops 50 gal/chair Bars, Cocktail Lounges (Not including food service) 20 gaUseat Beauty Shops (Style Shops) 125 gal/chair Bowling Lanes 50 gal/lane Businesses (other than those listed elsewhere in this table) 25 gal/employee Camps Construction or Work Camps 60 gaUperson 40 gal/person (with chemical toilets) Summer Camps 60 gaUperson Campgrounds -- With Comfort Station (Without water and sewer hookups) 100 gal/campsite Travel Trailer/Recreational Vehicle Park (With water and sewer hookups) 120 gal/space Churches (Not including a Kitchen, Food Service Facility, Day Care or Camp) 3 gaUseat Churches (With a Kitchen but, not including a Food Service Facility, Day Care, or Camp) 5 gaUseat Country Clubs 20 gal/member Day Care Facilities 15 gaUperson Factories (Exclusive of industrial waste) 25 gal/person/shift Add for showers 10 gal/person/shift Food Service Facilities Restaurants 40 gaUseat or 40 gal/15 ft2 of dining area, whichever is greater 24-hour Restaurant 75 gaUseat Food Stands (1) Per 100 square feet of food stand floor space 50 gal (2) Add per food employee 25 gal Other Food Service Facilities 5 gal/meal Hospitals 300 gal/bed Marinas 10 gal/boat slip With bathhouse 30 gal/boat slip Meat Markets (1) Per 100 square feet of market floor space 50 gal (2) Add per market employee 25 gal Motels/Hotels 120 gal/room With cooking facilities 175 gal/room Offices (per shift) 25 gal/person Residential Care Facilities 60 gal/person Rest Homes and Nursing Homes With laundry 120 gal/bed Without laundry 60 gal/bed Schools Day Schools With cafeteria, gym, and showers 15 gal/student With cafeteria only 12 gal/student With neither cafeteria nor showers 10 gal/student Boarding Schools 60 gal/person Service Stations 250 gal/water closet or urinal 24-hour Service Stations 325 gal/water closet Stores, Shopping Centers, and Malls (Exclusive of food service and meat markets) 120 gal/1000 ft2 of retail sales area Stadium, Auditorium, Theater, Drive-in 5 gal/seat or space Swimming Pools, Spas, and Bathhouses 10 gal/person (c) An adjusted design daily sewage flow may be granted by the local health department upon a showing as specified in Subparagraphs (c)(1) through (c)(2) that a sewage system is adequate to meet actual daily water consumption from a facility included in Paragraph (b) of this Rule. (1) Documented data from that facility or a comparable facility justifying a flow rate reduction shall be submitted to the local health department and the State. The submitted data shall consist of at least 12 previous consecutive monthly total water consumption readings and at least 30 consecutive daily water consumption readings. The daily readings shall be taken during a projected normal or above normal sewage flow month. A peaking factor shall be derived by dividing the highest monthly flow as indicated from the 12 monthly readings by the sum of the 30 consecutive daily water consumption readings. The adjusted design daily sewage flow shall be determined by taking the numerical average of the greatest ten percent of the daily readings and multiplying by the peaking factor. Further adjustments shall be made in design sewage flow rate used for sizing nitrification fields and pretreatment systems when the sampled or projected wastewater characteristics exceed those of domestic sewage, such as wastewater from restaurants or meat markets. (2) An adjusted daily sewage flow rate may be granted contingent upon use of extreme water -conserving fixtures, such as toilets which use 1.6 gallons per flush or less, spring -loaded faucets with flow rates of one gallon per minute or less, and showerheads with flow rates of two gallons per minute or less. The amount of sewage flow rate reduction shall be determined by the local health department and the State based upon the type of fixtures and documentation of the amount of flow reduction to be expected from the proposed facility. Adjusted daily flow rates based upon use of water -conserving fixtures shall apply only to design capacity requirements of dosing and distribution systems and nitrification fields. Minimum pretreatment capacities shall be determined by the design flow rate of Table I of this Rule. History Note: Authority G.S. 130A-335(e); Eff. July 1, 1982; Amended Eff. January 1, 1990; January 1, 1984. 2. Typical indoor water use. 7/5/2017 Indoor Water Use at Home Indoor Water Use at Home K gracelinks.org/124/indoor-water-use-at-home Shutterstock.com Fortunately, when we want fresh, clean water, all most of us have to do is turn on a faucet. On average, our direct indoor water use (water you use from your tap, toilet, dishwasher, etc.) adds up to about 60 gallons of water a day per person. Here's how Indoor water use breaks down: • Toilets (28 percent) • Washing Machines (22 percent) • Showers and Baths (19 percent) • Sinks (16 percent) • Household Leaks (14 percent) That last number is surprising — irs almost 10 gallons of water per person per day lost to leaky toilets and faucets Conserving Water with Water -Efficient Toilets, Showerheads and More Fortunately, saving water around the house is easier today than ever before. Newer (low -flow) toilets, showerheads and faucets are designed to be more efficient than older models and can save your household gallons every day. For example, older toilets use up to 7 gallons per flush, whereas low -flow toilets use 1.5 gallons or less. Likewise, older showerheads flow over 4 gallons per minute, while low -flow models can flow as low as 1.5 gallons per minute. Be careful what showerhead you purchase, though, because some fixtures, especially those with multiple nozzles, exceed the federal limit of 2.5 gallons per minute. If you use one of those, consider cutting back your shower time. Check out EPA's WaterSense website for water- and energy- saving products. In addition, you can find energy- and watersaving appliances like dishwashers and washing machines through DOE's ENERGY STAR label. By switching to water -saving fixtures and appliances you can reduce your indoor water use by a third on average. Heating is a Water and Energy Hog[ In most households water heating is a huge energy user, after indoor heating and cooling, appliances, electronics and lighting. So sadly, long hot showers waste both water and energy! Although modem fixtures and appliances are a great way to save gallons, irs still important to simply turn off the tap. By taking simple steps to reduce your water use at home you can save gallons, energy and dollars every day! To find lots of ways to save water and energy visit the Water Saving Tips page. ffr Did You Know? Washing dishes by hand takes about 20 gallons per load but Energy Star dishwashers only use 4 to 6 gallons. Even standard machines use only 6 to 8 gallons. If you do wash dishes by hand, turn off the tap until you're ready to rinse. 3. Proposed fixtures. 9159-DST,k With Optional Lq Escutcheon RP64070A 9959-DSTA L� Submitted Model No.: Specific Features: 9159-DST 4 3/8" (111 mm) - 9 1/2" (241 mm) 15 11/16" (399 mm) 8 7/16" (214 mm) 2 1/2" IF (61 mm)---*1 3X 1 1/4" to 1 1/2" Jai (32 mm to 9 13/16" H toe Size 2 1/2" (64 mm), (249 mm) Max. w) 10 1/2' 35 21/32" Escutcmm)n 3" (76 (906 mm) Max. w/o 10 1/2" 37 1 /8" Escutchen � (943 mm) 3/8" Compression 8" (203 mm) Fitting Centers 10 1/2" (267 mm) 9959-DST 43/8" Min. 1 1/2" (38 mm) To (111 mm) Clearanceck Splash 6 1/2" (165 mm) 13" T (330 mm) 7" (178 mm) 21 3/32" (61 mm)�I 2 1 /2" I �(64mm) 3X 1 1/4" to 1 1/2" (32 mm to 9 13/16" Hole Size Hole 2 1/2" 164 mm(249 mm) Max. w 10 1/2' Escutcheon 35 21/32" 3" (76 mm) (906 mm) Max. w/o 10 1 /2" Escutchen I 37 1 /8" (943 mm) WI 3/8" Compression 8" (203 mm) Fitting Centers 10 1/2" (267 mm) A Designate proper finish suffix Delta reserves the right (1) to make changes in specifications and materials, and (2) to change or discontinue models, both without notice or obligation. Dimensions are for reference only. See current full -line price book or www.deltafaucet.com for finish options and product availability. DSP-K-9159-DST Rev. F 0 FIR see what Delta can do KITCHEN FAUCETS ■ Trinsic® Collection ■ Single Handle Deck Mount ■ 2-Function Pull -Down Sprayer FEATURES: • MagnaTite° Magnetic System • DIAMOND Seal© Technology • Touch -Clean© Sprayhead STANDARD SPECIFICATIONS: • Maximum 1.8 gpm Q 60 psi, 6.8 Vmin Q 414 kPa • One or three hole mount (escutcheon optional, not included) -Spout rotates 360' • Control mechanism shall be full -motion valve cartridge • Two function wand; Aerated stream or spray • Red/blue indicator markings • Dual integral check valves in sprayer • Quick connect hoses WARRANTY • Parts and Finish - Lifetime limited warranty, or for commercial purchasers, 10 years for multi -family residential (apartments and condominiums) and 5 years for all other commercial uses, in each case from the date of purchase. • Electronic Parts and Batteries (if applicable) - 5 years from the date of purchase; or for commercial purchasers, 1 year from the date of purchase. No warranty is provided on batteries. COMPLIES WITH: ■ ASME A 112.18.1 / CSA B 125.1 ■ ASMEA112.18.6 Indicates compliance to c� ICC/ANSI Al 17. 1 ■ Verified compliant with .25% weighted average Pb content regulations. Delta Faucet Company 55 E. 1 1 1 th Street, Indianapolis, IN 46280 350 South Edgeware Road, St. Thomas, ON N5P 4L I © 2019 Delta Faucet Company 35749LFA Submitted Model No.: Specific Features: Min. 2 1 /2" (64 mm) Clearance to Back Splash 2 3/4" Recommended (70 mm) 6" to 16" 5 (152 mm to 406 mm) Centers (127 mm) 8 5/8" (219mm) I I _ 5 13/16" (148 mm) 3 1 /1' 6" (79 mm) 1 1 /8" 1 3/16" 6 15/16" (29mm) (30 mm) (177mm) 3 X 1 1/8"-1 1/2" Max. Deck (29-38 mm) Thickness Hole Size 1 /2"-14N PSM 1 5/8" (42 mm) to 8 5/8" 2 3/8" (61 mm) (220 mm) 1 1/4" (32 mm) Dia. A Designate proper finish suffix Delta reserves the right (1) to make changes in specifications and materials, and (2) to change or discontinue models, both without notice or obligation. Dimensions are for reference only. See current full -line price book or www.deltafaucet.com for finish options and product availability. DSP-L-35749LF Rev. B 10 see what Delta can do", BATHROOM FAUCET ■ Nicoli° Collection ■ Two Handle Widespread, Deck Mount STANDARD SPECIFICATIONS: • Max. flow rate 1.2 gpm © 60 psi, 4.5 Umin © 414 kPa • Solid brass end valves and spout body • Three hole mount • Hot and cold stems are interchangeable • 1/4 turn handle stops • 1/4" O.D. coper supply lines • Control mechanism is a rotating cylinder type with stainless steel plate and 90' rotation, with replaceable non-metallic seats • Models have drain with pop-up type fitting with plated flange and stopper 1T,'/_1 cI c7_ ,,, i C7 • Parts and Finish - Lifetime limited warranty, or for commercial purchasers, 10 years for multi -family residential (apartments and condominiums) and 5 years for all other commercial uses, in each case from the date of purchase. • Electronic Parts and Batteries (if applicable) - 5 years from the date of purchase, or for commercial purchasers, 1 year from the date of purchase. No warranty is provided on batteries. �atierSery� s 3 m °js EPA Gr CSA Group COMPLIES WITH: • ASME Al 12.18.1 / CSA B 125. 1 • ASME Al 12.18.2 / CSA B 125.2 2 Indicates compliance to ICC / ANSI Al 17.1 - Valve control only • EPA WaterSense Delta Faucet Company 55 E. I I I th Street, Indianapolis, IN 46280 350 South Edgeware Road, St. Thomas, ON N5P 4L I © 2020 Delta Faucet Company Submitted Model No.: Specific Features: Min. 1 1/4" 32 mm Clearance To Back Sp ash 10 1/8" (257 mm) (127 mm) 8 11 /16" (221 mm) 6 1/4" 5 7/8" (159 mm) (149 mm) 3 9/16" (90 mm) 2 1/4" (57 mm) T 2 11 /16" (68 mm) r(25 " to 1 1/2" m to iz mm)2 1/4" (57 mm) le Size Max. Deck 7/8" Thickness (22 mm) 4" Centers (102 mm) 32 3/4" (832 mm) PEX Supply Tubes 2 1/8" (SDa. (41 om) 2 3/8" (60 mm) 7 15/16" (202 mm) 1 3/8" (35 mm) Dia. 1 1/4' 30 (32 mm) Dia. A Designate Proper Finish Suffix Delta reserves the right (1) to make changes in specifications and materials, and (2) to change or discontinue models, both without notice or obligation. Dimensions are for reference only. See current fun -line price book or www.deltafaucet.com for finish options and product availability. DSP-L-2559-MPU-DST Rev. F see what Delta can do - BATHROOM FAUCET ■ TrinsicTm Bath Collection ■ Two Handle Deck Mount FEATURES: • DIAMOND SealO Technology STANDARD SPECIFICATIONS: ■ Max flow rate 1.2 gpm @ 60 psi, 4.5 Umin @ 414 kPa ■ Three hole mount ■ 1/4 turn handle stops ■ Diamond coated ceramic cartridge ■ Hot and cold stems are interchangeable. ■ 3/8" O.D. straight PEX supply tubes ■ Models have metal drain with push -pop type fitting with plated flange and stopper WARRANTY • Parts and Finish - Lifetime limited warranty, or for commercial purchasers, 10 years for multi -family residential (apartments and condominiums) and 5 years for all other commercial uses, in each case from the date of purchase. • Electronic Parts and Batteries (if applicable) - 5 years from the date of purchase; or for commercial purchasers, 1 year from the date of purchase. No warranty is provided on batteries. �aterSery� s m m "�s EPA Gr COMPLIES WITH: ■ ASME A112.18.1 / CSA B 125.1 ■ ASME A112.18.2 / CSA B 125.2 c] Indicates compliance to ICC/ANSI A 1 17. 1 - Valve control only ■ EPA WaterSense© ■ Verified compliant with 0.25% weighted average Pb content regulations. Delta Faucet Company 55 E. I I I th Street, Indianapolis, IN 46280 350 South Edgeware Road, St. Thomas, ON N5P 4L I © 2020 Delta Faucet Company Submitted Model No.: Specific Features: 52680A Showerhead Full Body Spray % Massaging Full Spray Spray w/Massage 52682A Showerhead Soft Rain Spray 52683A Showerhead Full Body Full Spray Spray w/Massage Massaging Aerated Spray Spray 52689A Showerhead Soft Rain Spray 57740A Showerhead Full Body Spray Pause ®®®®®®®® ®®®®®® 207 mm) 8 3/4" (222 mm) 3 5/16" (84 mm) 5' (127 mm) 3 11 /32" (85 mm) 6 5/16" (160 mm) 3 1/2" (89 mm) 7 11/16" (195 mm) 2 9/16" (65 mm) A Designate proper finish suffix Delta reserves the right (1) to make changes in specifications and materials, and (2) to change or discontinue models, both without notice or obligation. Dimensions are for reference only. See current full -line price book or www.deltafaucet.com for finish options and product availability. DSP-B-52680 Rev. C =16 D E RAINCAN SHOWERHEAD ■ Raincan Showerhead STANDARD SPECIFICATIONS • Maximum 2.5 gpm at 80 psi (9.5UMin Q 552 kPa) One to five spray showerhead 5"-8 112" spray face diameter • Brass construction: 52682, 52689 • Touch -dean spray holes: 52680, 57740, 52683 WARRANTY • Lifetime limited warranty on parts (other than electronic parts and batteries) and finishes: or, for commercial users, for 5 years from date of purchase. • 5 year limited warranty on electronic parts (other than batteries); or, for commercial users, for I year from the date of purchase. No warranty is provided on batteries. COMPLIES WITH: •ASMEA112.18.1/CSAB125.1 Ol, D E LTA FAUCET COMPANY 55 E. I I I th Street, Indianapolis, Indiana 46280 350 South Edgeware Road, St. Thomas, ON N5P 4L I © 2015 Masco Corporation of Indiana Technical Information Fixture configuration Two-piece, elongated bowl Water per flush 1.28 gpf (4.8 Ipf) Passageway 2" (51 mm) Water area 9 1 /16" X 6 5/32" (230 mm x156 mm) Seat post hole centers 5 1/2" (140 mm) Included Components: Tank Assembly RP81873A Tank Cover RP82448A Flush Lever RP82450A Mounting Hardware — Bowl to floor RP100489 Mounting Hardware — Tank to bowl RP82451 Seat Assembly RP92086A A Designate proper finish suffix (-WH for white) Installation Notes • Install this product according to the installation guide. • This model complies with the American Disabilities Act (ADA) when installed per the requirements of the Accessibility Guidelines, Section 604 Water Closets, of the Act, which includes the installation of an open front seat (not included). • This model complies with CSA B651 when installed per Clause 4.3.6 of the standard. DSP-S-C43913 Rev. B 91 see what Delta can do" Foundations° Toilet C43913A STANDARD SPECIFICATIONS: • Vitreous China • 29 9/32" (744 mm) in length, 17 1/2" (445 mm) in width, 30 13/16" (783 mm) in height. • Elongated bowl with chair height design 16 1 /2" (419 mm) to top of the bowl. • 12" (305 mm) rough -in. • High efficiency 1.28 gpf (4.8 Ipf). • 3" (76 mm) flush valve. • 2" (51 mm) fully glazed trapway. • Includes polished chrome trip lever. WARRANTY • Chinaware — Lifetime limited warranty, or for commercial purchasers, 10 years for multi -family residential (apartments and condominiums) and 5 years for all other commercial uses, in each case from the date of purchase. • Mechanical Parts — 1 year from the date of purchase. • Electronic Parts and Batteries (if applicable) — 5 years from the date of purchase; or for commercial purchasers, 1 year from the date of purchase. No warranty is provided on batteries. • Toilet Seats — 1 year from the date of purchase. For commercial purchasers no warranty is given. COMPLIES WITH • ADA / ANSI A 1 17.1 • ASME A 1 12. 19.2 / CSA B45.1 • ASME Al 12. 19.5 • EPA WaterSense® High Efficiency Toilet • CalGreen Delta Faucet Company 55 E 1 1 1 " Street, Indianapolis, Indiana 46280 350 South Edgeware Road, St. Thomas, ON N5P 4L1 0 2019 Delta Faucet Company see what Delta can do" Foundations° Toilet C43913A Submitted Model No.: Specific Features: Top down view 29 9/32" (744 mm) 18 1/2" (470 mm) 5 1/2"(140 mm) C/L of Seat Post Holes Centers Front view Left view " 9 1/4" (234 mm) 17 1/2" (445 mm) ` 1 1(25 mm Recommen ed Clearance to Back Wall 141116" (357 mm) 30 13/16" (783 mm) 15/1Thread S 1 E=420 /2" yp127 mm)gT ical Ran e For Existing Supplymm) 3/8" NPT Supply (204 mm) 6 1/4" g" (159 mm) 12" 21„ (533 mm) 29 mm) (305 mm) 8" (204 mm) Foot Print C/L of Outlet 5 5/8" - 6 3/8" (142 - 163 mm) Mounting Hole A Designate proper finish suffix (-WH for white) Delta reserves the right (1) to make changes in specifications and materials, and (2) to change or discontinue models, both without notice or obligation. Dimensions are for reference only. See full -line pricebook or www.deltatoilet.com for finish options and product availability. DSP-S-C43913 Rev. B 4. Supporting documentation including historical flow rates for fixtures and washer. EPA L ' WaterSense High -Efficiency Lavatory Faucet Specification Supporting Statement WaterSense° High -Efficiency Lavatory Faucet Specification Supporting Statement I. Introduction The WaterSense program released its High -Efficiency Lavatory' Faucet Specification (specification) on October 1, 2007, to promote and enhance the market for water -efficient lavatory faucets. The goal of this specification is to allow consumers to identify and differentiate products in the marketplace that meet this specification's criteria for water efficiency and performance. This specification addresses lavatory faucets and lavatory faucet accessories2 in private use, such as those found in residences, and private restrooms in hotels and hospitals. Since these types of faucets are used primarily for hand washing and other sanitary activities, such as face washing and razor rinsing, WaterSense believes that maximum flow rates can be reduced enough to impact national water consumption while at the same time not negatively impacting user satisfaction. This specification is not intended to address kitchen faucets, which have a very different set of uses and performance criteria, or public restroom faucets (e.g., airports, theaters, arenas, stadiums, offices, and restaurants), which already have national performance standards and criteria to which they should conform. II. Current Status of Faucets WaterSense estimates that currently there are 222 million residential lavatory faucets in the United States. This estimate is based on an assumed one-to-one ratio of lavatory faucets to residential bathrooms.3 In addition to the existing stock, approximately 25 million new faucets are sold each year for installation in new homes or replacement of aging fixtures in existing homes.4 Of these 25 million faucets, roughly two-thirds of those are lavatory faucets (approximately 17 million units). Residential lavatory and kitchen faucets account for ' Lavatory is the terminology used in the Energy Policy Act of 1992 and ASME Al 12.18.1 to describe the types of faucets to which the standards apply. In this specification, lavatory means any bathroom sink faucets intended for private use. 2 Accessory, as defined in ASME 112.18.1, means a component that can, at the discretion of the user, be readily added, removed, or replaced, and that, when removed, will not prevent the fitting from fulfilling its primary function. For the purpose of this specification, an accessory can include, but is not limited to lavatory faucet flow restrictors, flow regulators, aerator devices, laminar devices, and pressure compensating devices. 3 U.S. Census Bureau, American Housing Surveys for the United States, 1970-2003. 4 Business Trend Analysts, 2006. "2005/2006 Outlook for the U.S. Plumbing Fixtures and Fittings Industry." <www.mindbranch.com/catalog/print_product_page.jsp?code=R225-358> Version 1.0 1 October 1, 2007 L ' EPA M High -Efficiency Lavatory Faucet Specification WaterSense Supporting Statement approximately 15.7 percent of indoor residential water use in the United States5—equivalent to more than 1.1 trillion gallons of water used each year. The Energy Policy Act of 1992 originally set the maximum flow rate for both lavatory and kitchen faucets at 2.5 gallons per minute (gpm) at 80 pounds per square inch (psi) static pressure. In 1994, American Society of Mechanical Engineers (ASME) Al 12.18.1 M-1994—Plumbing Supply Fittings set the maximum flow rate for lavatory faucets at 2.2 gpm at 60 psi. In response to industry requests for conformity with a single standard, in 1998, the U.S. Department of Energy adopted the 2.2 gpm at 60 psi maximum flow rate standard for all faucets (see 63 FR 13307; March 18, 1998). This national standard is codified in the U.S. Code of Federal Regulations at 10 CFR Part 430.32. As a point of reference, the maximum flow rates of many of the pre-1992 faucets range from 3 to 7 gpm. Other than the aforementioned maximum flow rate standards, there currently are no universally accepted performance tests or specifications (e.g., rinsing or wetting performance standards) for faucets. III. WaterSense High -Efficiency Lavatory Faucet Specification Scope The WaterSense program developed this specification to address criteria for improvement and recognition of water -efficient and high-performance lavatory faucets and lavatory faucet accessories. WaterSense labeled lavatory faucet accessories can be incorporated into the design of new faucets to control the flow rate and provide the mechanism for meeting this specification's criteria, or can be purchased separately and retrofit onto existing older faucets to provide water efficiency and performance. This specification focuses solely on the category of lavatory faucets intended for private use because of the differences in the uses and performance expectations between private lavatory faucets and kitchen or public restroom faucets. Lavatory faucets are used primarily for hand washing and other sanitary activities, such as teeth brushing, face washing, and shaving. For these activities, discussions with faucet manufacturers and water utility representatives provided a general consensus that a reduction in the maximum flow rate from 2.2 gpm (the current federal water -efficiency standard) to 1.5 gpm, as established by this specification, is not very noticeable for most users. The most noticeable differences are increased wait times when filling the basin or waiting for hot water. While decreasing a faucet's maximum flow rate increases user wait time for these activities, WaterSense determined the potential water savings gained from the primary use of lavatory faucets (i.e., washing and rinsing) outweigh any potential inconvenience caused by increased wait times and will not negatively impact overall user satisfaction. Kitchen sink faucets were excluded from this specification because the different uses and user expectations require other considerations for defining performance. One major performance consideration is a kitchen faucet's ability to effectively rinse dishes. Kitchen faucets also are commonly used for pot or container filling, and significantly increased wait times might not be acceptable to most users. WaterSense determined that reducing the maximum flow rates of kitchen faucets would create issues of user satisfaction and be counter to its program goals of 5 Mayer, Peter W. and William B. DeOreo. Residential End Uses of Water. Aquacraft, Inc. Water Engineering and Management. American Water Works Association. 1998. Version 1.0 2 October 1, 2007 L ' EPA M High -Efficiency Lavatory Faucet Specification WaterSense Supporting Statement increasing efficiency while maintaining or improving performance. In order to maintain user satisfaction and ensure a high level of performance, a maximum flow rate greater than what is suitable for lavatory faucets might need to be considered for kitchen faucets. Some type of wetting or rinsing performance test also might need to be included. In addition, there is an emerging area of research and development in multiposition control lever faucet technologies that offer users "high" and "low" settings for different activities. While performance data are not yet available, these technologies might prove to be effective in using water more efficiently. For these reasons, WaterSense intends to evaluate the possibility of developing a WaterSense specification for kitchen faucets at a later date. Public restroom and metering faucets (faucets that are set to discharge a specific amount of water or run for a specified period of time for each use) also were excluded from this specification because of their differing uses and performance expectations and because standards governing their maximum flow rate already exist. Public restroom faucets, for example, are used almost exclusively for hand washing or simple rinsing, compared to lavatory faucets in homes and in other private bathrooms that face a myriad of uses. As a consequence, the maximum flow rate for these public restroom and metering fixtures can be set significantly lower than the flow rate for private lavatory faucets without negatively impacting user satisfaction. Also, a separate set of standards already apply to these types of fixtures. Codified in the U.S. Code of Federal Regulations at 10 CFR Part 430 (specifically §430.32(o) Faucets) are standards setting the maximum flow rate for metering faucets at 0.25 gallons/cycle. Section 5.4.1 and Table 1 of ASME Al 12.18.1/CSA B125.1—Plumbing Supply Fittings also establish the maximum flow rates for public lavatory (other than metering) faucets at 0.5 gpm. As a consequence, this category of faucet is not covered by the current specification. If WaterSense decides to address water efficiency and performance for these types of faucets, it will do so under a separate specification at a later time. Water -Efficiency and Performance Criteria The water -efficiency component of this specification establishes a maximum flow rate of 1.5 gpm at an inlet pressure of 60 psi. Lowering the maximum flow rate from 2.2 gpm to 1.5 gpm (both at 60 psi) represents a 32 percent reduction, which is consistent with WaterSense's stated goal of improving efficiency by at least 20 percent. Even when installed in systems with high water pressure (up to 80 psi), faucets designed to this specification will have maximum flow rates of approximately 1.75 gpm, which still represents a greater than 20 percent increase in efficiency. WaterSense chose to specify a test pressure of 60 psi to maintain consistency with the current industry standard (ASME Al 12.18.1—Plumbing Supply Fittings) to which all faucets sold in the United States must comply. The requirements of this specification are also in harmony with other international standards. The Joint Standards Australia/Standards New Zealand Committee established standards for the rating and labeling of water -efficient products (AS/NZS 6400:2005). As part of the standard, water -efficient faucets are rated on a scale of 1 to 6 based on maximum flow rates. Under this system, comparable 1.5 gpm WaterSense labeled lavatory faucets would receive a 5 out of 6 star rating, meeting criteria for maximum flow rates between 4.5 liters per minute (L/min) (1.2 gpm) and 6.0 L/min (1.6 gpm). Version 1.0 3 October 1, 2007 L ' EPA M High -Efficiency Lavatory Faucet Specification WaterSense Supporting Statement Meeting or exceeding user expectations via the establishment of performance criteria for WaterSense labeled products is an important aspect of the WaterSense program. From the outset of discussions with interested parties, WaterSense was aware that performance of water - efficient lavatory faucets is affected by low water pressures. To ensure user satisfaction with WaterSense labeled lavatory faucets or lavatory faucet accessories across a range of possible user conditions, WaterSense has established a minimum flow rate of 0.8 gpm at 20 psi in the specification. In developing these water -efficiency and performance criteria, WaterSense evaluated comments received during the draft specification's public forum and public comment period (see Response to Issues Raised During Public Comment on February 2007 Draft Specification for WaterSenseSm Labeling of High -Efficiency Lavatory Faucets). WaterSense also considered user satisfaction data generated from four high -efficiency lavatory faucet retrofit studies and the impact of pressure changes on product flow rates for various types of lavatory faucet accessories. WaterSense established a maximum flow rate of 1.5 gpm at 60 psi because interested parties that provided comments on the draft specification generally agreed that a flow rate of 1.5 gpm would provide no noticeable difference for most users. In addition, data collected from retrofit studies demonstrate a high level of user satisfaction with high -efficiency lavatory faucets that have maximum flow rates of 1.0 and 1.5 gpm. Aquacraft, Inc. conducted retrofit studies in Seattle, Washington (2000)6 and East Bay Municipal Utility District (EBMUD), California (2003)7 in which they replaced existing lavatory faucet aerators with 1.5 gpm pressure compensating aerators. In the Seattle study, 58 percent of the participants felt their faucets with the new aerators performed the same or better than their old faucet fixtures and 50 percent stated they would recommend these aerators to others. In the EBMUD study, 80 percent of the participants felt their faucets with the new aerators performed the same or better than their old faucet fixtures, and 67 percent stated they would recommend these aerators to others. A third Aquacraft, Inc. retrofit study conducted in Tampa, Florida (2004)8 replaced existing lavatory faucet aerators with 1.0 gpm pressure compensating aerators. The participants in this study were receptive to an even higher -efficiency fixture, with 89 percent saying their new aerators performed the same or better than their old faucet fixtures and would recommend them to others. Seattle Public Utilities also provided WaterSense with survey results of customer use and satisfaction with 1.0 gpm pressure compensating aerators distributed through the utility's direct -mail showerhead and faucet aerator pilot program. According to its survey, 94 percent of the participants that received the free aerators installed them and only 2 percent disliked the aerators and removed them.9 6 Seattle Home Water Conservation Study: The Impacts of High -Efficiency Plumbing Fixture Retrofits in Single -Family Homes, December 2000. Water Conservation Study: Evaluation of High -Efficiency Indoor Plumbing Fixture Retrofits in Single - Family Homes in the East Bay Municipal Utility District Service Area, July 2003. 8 Tampa Water Department Residential Water Conservation Study: The Impacts of High -Efficiency Plumbing Fixture Retrofits in Single -Family Homes, January 2004. 9 Seattle Public Utilities. "Showerhead/Aerator Pilot Program Summary." Unpublished. Version 1.0 4 October 1, 2007 L ' EPA M High -Efficiency Lavatory Faucet Specification WaterSense Supporting Statement WaterSense established a minimum flow rate of 0.8 gpm at 20 psi for several reasons. First, WaterSense felt this minimum flow rate was reasonable to ensure user satisfaction in homes with low water pressure based on comments that were received regarding the draft specification. Second, WaterSense received comments from several utilities regarding programs in which 1.0 gpm lavatory faucet aerators are provided to customers. These products have shown a high level of user satisfaction, and WaterSense wants to recognize these products and the efforts of the utilities to ensure that additional water savings can be achieved through such programs. Third, WaterSense wants to avoid restricting design options to the extent possible. The specification leaves open the possibility for the use of fixed orifice flow control devices (with a maximum flow rate of 1.5 gpm) instead of restricting manufacturers to the use of pressure compensating devices. Under the specification, a 1.5 gpm maximum flow rate fixed orifice aerator could qualify for use of the label (according to currently available product specifications and flow curves). Pressure compensating devices with maximum flow rates between 1.5 and 1.0 gpm could also qualify for the use of the WaterSense label (according to currently available product specifications and flow curves). WaterSense believes that this approach allows for the greatest degree of design freedom for manufacturers and supports existing utility programs, while still ensuring a high level of performance and user satisfaction. In order for high -efficiency lavatory faucets to effectively emerge in the market following the release of the final version of this specification, the market must ideally be equipped to produce the faucets or faucet technology that the specification requires. WaterSense is not currently aware of any lavatory faucets on the market with a maximum flow rate of 1.5 gpm. There are, however, several types and models of faucet components and accessories currently available that have the capability to control the flow to the level that is required by this specification. As a result, WaterSense is confident that faucets and faucet accessories that meet the requirements of this specification can be readily brought to market. Potential Water and Energy Savings To estimate water and energy savings that can be achieved by products that meet this specification, WaterSense examined the Seattle (2000) and EBMUD (2003) Aquacraft retrofit studies, which provided actual water consumption reductions generated by the installation of high -efficiency, pressure -compensating 1.5 gpm aerators on lavatory faucets. WaterSense expects the results under this specification to be similar to what was found in these two studies. These studies indicate that installing high -efficiency aerators can yield significant reductions in household water consumption. Post faucet retrofit, the weighted average daily per capita reduction in water consumption achieved was 0.6 gallons per capita per day (gcpd). It is important to note that in both of these studies, kitchen faucets in each household were retrofitted with 2.2 gpm pressure compensating aerators. While these retrofits contributed in part to overall reductions in household water consumption, the retrofits simply brought those kitchen sink faucets up to current water -efficiency standards, therefore, WaterSense decided to set aside this confounding influence in order to estimate the water savings. Assuming the average household consists of 2.6 people, this equates to an average annual household savings of approximately 570 gallons of water (see Calculation 1). Version 1.0 5 October 1, 2007 EPA L ' WaterSense High -Efficiency Lavatory Faucet Specification Supporting Statement Calculation 1. Average Household Water Savings 0.6 gpcd • 2.6 people/household • 365 days = 570 gallons annually Extrapolated to the national level, potential estimated water savings could be as great as 61 billion gallons annually (see Calculation 2). These estimates clearly demonstrate the significant water savings potential of high -efficiency lavatory faucets and accessories. Calculation 2. National Water Savings 570 gal/year • 107,574,00010 occupied residences w/ plumbing fixtures = 61 billion gallons Based upon these estimates, the average household could save more than 70 kWh of electricity (see Calculation 3) or 350 cubic feet of natural gas (see Calculation 4) each year. National savings could exceed 3 billion kWh hours and 20 billion cubic feet (Bcf) of natural gas each year (see Calculations 5 and 6). Calculation 3. Electricity Saving Per Household (570 gal/year • 0.70) • (176.5 kWh of electricity/1,000 gal) = 70 kWh of electricity per year Calculation 4. Natural Gas Savings Per Household (570 gal/year • 0.70) • (0.8784 Mcf of natural gas/1,000 gal) = 0.35 Mcf (350 cubic feet) of natural gas per year Calculation 5. National Electricity Savings Potential (61,000,000,000 gal • 0.70 • 0.40) • (176.5 kWh of electricity/1,000 gal) = 3 billion kWh of electricity nationwide Calculation 6. National Natural Gas Savings Potential (61,000,000,000 gal • 0.70 • 0.56) • (0.8784 Mcf of natural gas/1,000 gal) = 20 million Mcf of natural gas nationwide = 20 Bcf of natural gas nationwide These calculations are based upon the following assumptions: • Approximately 70 percent of faucet water used in a household is hot water (Tampa and Seattle Aquacraft studies). • 42,788,000 (approximately 40 percent) of occupied residences in the United States heat their water using electricity." • 60,222,000 (approximately 56 percent) of occupied residences in the United States heat their water using natural gas.12 10 U.S. Department of Housing and Urban Development and U.S. Census Bureau. American Housing Survey for the United States 2005. Table 1A-4 page 5. 11 U.S. Department of Housing and Urban Development and U.S. Census Bureau. American Housing Survey for the United States 2005. Table 1A-5, page 6_ 12 U.S. Department of Housing and Urban Development and U.S. Census Bureau. American Housing Survey for the United States 2005. Table 1A-5, page 6_ Version 1.0 6 October 1, 2007 L ' EPA M High -Efficiency Lavatory Faucet Specification WaterSense Supporting Statement Water heating consumes 0.1765 kWh of electricity per gallon of water heated assuming: o Specific heat of water = 1.0 BTU/Ib ° F 0 1 gallon of water = 8.34 Ibs 0 1 kWh = 3,412 BTUs o Incoming water temperature is raised from 55° F to 120° F (A 65 ° F). o Water heating process is 90 percent efficient, electric hot water heater. Calculation 7. [(1 gal • 1.0 BTU/Ibs • ° F) (1 KWh/3,412 BTUs) / (1 gallon/8.34 Ibs) • 65° F] / 0.90 = 0.1765 kWh/gal • Water heating consumes 0.8784 Mcf of natural gas per 1,000 gallons of water heated assuming: o Specific heat of water = 1.0 BTU/Ib • ° F 0 1 gallon of water = 8.34 Ibs 0 1 Therm = 99,976 BTUs o Incoming water temperature is raised from 55° F to 120° F (A 65 ° F) o Water heating process is 60 percent efficient, natural gas hot water heater Calculation 8. [(1 gal • 1.0 BTU/Ibs • ° F) (lTherm/99,976 BTUs) / (1 gallon/8.34 Ibs) • 65° F] / 0.60 = 0.009053 Therms/gal Calculation 9. 0.010428 Therms/gal • 1,000 gal • 1 Mcf/10.307 Therms = 0.8784 Mcf/kgal Cost Effectiveness and Payback Period The average homeowner retrofitting their lavatory faucets with WaterSense labeled high - efficiency lavatory faucet accessories (e.g., aerator, laminar flow device, flow restrictor) will realize accompanying $3.26 savings on water and wastewater cost annually due to lower water consumption (see Calculation 10). Calculation 10. Annual Water and Wastewater Cost Savings 570 gallons/year • $5.72/1,000 gallonS13 = $3.26/year Factoring in the accompanying energy savings, the average household with electric water heating may save an additional $6.65 (70 kWh/year • $.095/kWh), for a combined annual savings of $9.91. The average household with natural gas water heating, may save an additional $4.56.(0.35 Mcf/year • $13.04/Mcf), for a combined annual savings of $7.82. 13 Raftelis Financial Consulting. Water and Wastewater Rate Survey. American Water Works Association. 2004. Version 1.0 7 October 1, 2007 L ' EPA M High -Efficiency Lavatory Faucet Specification WaterSense Supporting Statement Assuming that the average household has two lavatory faucets 14, replacing the aerators in each lavatory faucet with a WaterSense labeled aerator would save $1.63 per faucet on annual water and wastewater costs. The average payback period for the replacement of two lavatory faucet aerators would be approximately 10 months for those with electric water heating and 12 months for those heating with natural gas (See Calculations 11 and 12). Calculation 11. Average Payback Period (Electric Water Heating) $8.00 / [$3.26/year + (70 kWh/year • $.095/kWh)] = 0.8 years (-10 months) Calculation 12. Average Payback Period (Natural Gas Water Heating) $8.00 / [$3.26/year + (0.35 Mcf/year • $13.04 /Mcf)] = 1.0 years (-12 months) These calculations are based upon the following assumptions: • WaterSense labeled retrofit devices retail for $4.00 each. • Average cost of electricity is $0.095/kWh15 • Average cost of natural gas is $13.04/Mcf16 Unit Abbreviations: Bcf = billion cubic feet BTU = British thermal unit F = Fahrenheit gal = gallon gpcd = gallons per capita per day gpm = gallons per minute kgal = kilogallons kWh = kilowatt hour Ibs = pounds L/min = liters per minute Mcf = thousand cubic feet psi = pressure per square inch WaterSense assumes that the cost of new faucets manufactured and sold as WaterSense labeled fixtures will not increase significantly since in many cases the manufacturer will simply need to substitute the current flow regulating device with a similar, more efficient rated device. In many cases this will be as simple as switching from the current 2.2 gpm aerator or laminar flow device to a comparable 1.5 gpm WaterSense labeled device 14 U.S. Department of Housing and Urban Development and U.S. Census Bureau. American Housing Survey for the United States 2005. Table 1A-3 page 4. 15 Average Retail Price of Electricity to Ultimate Customers by End -Use Sector, Energy Information Administration. <www.eia.doe.gov/cneaf/electricity/epa/epat7p4.html> 16 Short -Term Energy Outlook, Energy Information Administration. <www.eia.doe.gov/steo> Version 1.0 8 October 1, 2007 EPA WaterSense WaterSense Specification for Showerheads WaterSense° Specification for Showerheads 1.0 Scope and Objective This specification establishes the criteria for showerheads labeled under the U.S. Environmental Protection Agency's (EPA's) WaterSense° program. It is applicable to showerhead fixture fittings, inclusive of: Fixed showerheads that direct water onto a user (excluding body sprays) for bathing purposes; and Hand-held showers, a subset of showerheads that are moveable devices for directing water onto a user. Hand-held showers can be installed on a support to function as a fixed showerhead. When used in this document the term "showerhead" shall also include hand-held showers. This specification is designed to ensure sustainable, efficient water use and a high level of user satisfaction with showerhead performance. 2.0 General Requirements 2.1 The showerhead shall conform to applicable requirements in ASME A112.18.1 /CSA B125.1.1 2.2 If the showerhead has more than one mode, all modes must meet the maximum flow rate requirement outlined in Section 3.1.1 and at least one of the modes, as specified by the manufacturer, must meet all of the requirements outlined in this specification. 2.3 The showerhead shall not be packaged, marked, or provided with instructions directing the user to an alternative water -use setting that would override the maximum flow rate, as established by this specification. Any instruction related to the maintenance of the product, including changing or cleaning showerhead components, shall direct the user on how to return the product to its intended maximum flow rate. 3.0 Water -Efficiency Criteria 3.1 The flow rate of the showerhead shall be tested in accordance with the procedures in ASME A112.18.1/CSA 13125.1 and shall meet the following criteria: 3.1.1 The manufacturer shall specify a maximum flow rate value (rated flow) of the showerhead. This specified value must be equal to or less than 2.0 gallons per minute (gpm) (7.6 liters per minute [Umin]). ' References to this and other standards apply to the most current version of those standards. Version 1.0 1 March 4, 2010 EPA L WaterSense WaterSense Specification for Showerheads 3.1.2 The maximum flow rate shall be the highest value obtained through testing at flowing pressures of 20, 45, and 80 ± 1 pounds per square inch (psi) (140, 310, and 550 ± 7 kilopascal [kPa]), when evaluated in accordance with 10 CFR 430 Subpart F, Appendix B, Step 6(b). This maximum flow rate shall not exceed the maximum flow rate value specified in Section 3.1.1. 3.1.3 The minimum flow rate, determined through testing at a flowing pressure of 20 ± 1 psi (140 ± 7 kPa) and when evaluated in accordance with 10 CFR 430 Subpart F, Appendix B, Step 6(a), shall not be less than 60 percent of the maximum flow rate value specified in Section 3.1.1. 3.1.4 The minimum flow rate shall be the lowest value obtained through testing at flowing pressures of 45 and 80 ± 1 psi (310 and 550 ± 7 kPa), when evaluated in accordance with 10 CFR 430 Subpart F, Appendix B, Step 6(a). This minimum flow rate shall not be less than 75 percent of the maximum flow rate value specified in Section 3.1.1. 4.0 Spray Force Criteria 4.1 The spray force of the showerhead shall be tested in accordance with the procedures outlined in Appendix A and shall meet the following criteria: 4.1.1 The minimum spray force shall not be less than 2.0 ounces (0.56 newtons [N]) at a pressure of 20 ± 1 psi (140 ± 7 kPa) at the inlet when water is flowing. 5.0 Spray Coverage Criteria 5.1 The spray coverage of the showerhead shall be tested in accordance with the procedures outlined in Appendix B and shall meet the following criteria: 5.1.1 The total combined maximum volume of water collected in the 2- and 4- inch [in.] (50-, 101-millimeter [mm]) annular rings shall not exceed 75 percent of the total volume of water collected, and; 5.1.2 The total combined minimum volume of water collected in the 2-, 4-, and 6-in. (50-, 101-, 152-mm) annular rings shall not be less than 25 percent of the total volume of water collected. 6.0 Marking In addition to the marking requirements in ASME All 12.18.1/CSA B125.1, the following markings shall apply: Version 1.0 2 March 4, 2010 EPA L WaterSense WaterSense Specification for Showerheads 6.1 The product shall be marked with the maximum flow rate value in gpm and L/min as specified by the manufacturer, verified through testing and in compliance with this specification. 6.2 The product packaging shall be marked with the maximum flow rate value in gpm and L/min as specified by the manufacturer, verified through testing and in compliance with this specification. 6.3 The product packaging shall be marked with the minimum flow rate value in gpm and L/min at 45 psi, calculated in Section 3.1.4 as 75 percent of the manufacturer's specified maximum flow rate value, verified through testing and in compliance with this specification. 6.4 Flow rate marking shall be in gpm and L/min in two or three digit resolutions (e.g., 2.0 gpm [7.6 L/min]). 7.0 Effective Date This specification is effective on February 9, 2010. 8.0 Future Specification Revisions EPA reserves the right to revise this specification should technological and/or market changes affect its usefulness to consumers, industry, or the environment. Revisions to the specification would be made following discussions with industry partners and other interested stakeholders. 9.0 Definitions Definitions within ASME All 12.18.1/CSA B125.1 are included by reference ASME — American Society of Mechanical Engineers ASME PTC — American Society of Mechanical Engineers Performance Test Codes ANSI —American National Standards Institute CFR — Code of Federal Regulations CSA — Canadian Standards Association ISA — International Society of Automation Version 1.0 3 March 4, 2010 EPA WaterSense WaterSense Specification for Showerheads Supporting, Statement WaterSense® Specification for Showerheads Supporting Statement I. Introduction Showering is one of the leading uses of water inside the home, representing approximately 17 percent of annual residential indoor water use in the United States. This translates into more than 1.2 trillion gallons of water consumed each year',2. The WaterSense program released its final specification for showerheads on March 4, 2010, to capitalize on this opportunity to further improve the nation's water and energy efficiency by raising consumer awareness and promoting the use of more efficient showerheads. The intent of this specification is to help consumers identify those products that have met EPA's criteria for water efficiency and performance. WaterSense collaborated with the American Society of Mechanical Engineers (ASME)/Canadian Standards Association (CSA) Joint Harmonization Task Force to develop the specification criteria for high -efficiency showerheads. This task force is open to the public and comprises a wide variety of stakeholders, including showerhead manufacturers, water and energy utilities, testing laboratories, consultants, and other water -efficiency and conservation specialists. Their participation, resources, and expertise enabled WaterSense to evaluate showerhead efficiency and performance and develop meaningful testing protocols that can effectively differentiate showerhead performance. Prior to the task force's work there were no universally accepted criteria for measuring showerhead performance. Federal water -efficiency legislation and national performance standards only establish product flow rates that dictate water consumption —they do not address what makes a satisfactory, or unsatisfactory, shower. Now, with this specification, WaterSense and the task force have bridged this consumer information gap by incorporating performance requirements for products seeking to earn the WaterSense label. The requirements address flow rates across a range of pressures, spray force, and spray coverage, three key attributes of showerhead performance, according to consumer testing. These new requirements are designed to ensure a high level of performance and user satisfaction with high -efficiency showerheads. II. Current Status of Showerheads With nearly 110 million occupied housing units in the United States3 and an average of two showerheads per household4, WaterSense estimates that there are 220 million showerheads 'Assumes a per capita shower use of 11.6 gallons. See Mayer, Peter W. and William B. DeOreo. Residential End Uses of Water. Aquacraft, Inc. Water Engineering and Management. American Water Works Association. 1998. Page 102. 2 According to the U.S. Census Bureau, there are 300 million persons in the United States. 3 See U.S. Census Bureau and the U.S. Department of Housing and Urban Development's American Housing Survey for the United States. 2007. 4 Mayer and DeOreo, op. cit., 99. Version 1.0 1 March 4, 2010 EPA WaterSense WaterSense Specification for Showerheads Supporting, Statement currently installed in homes across the United States. WaterSense also estimates that approximately 10 percent of the existing 220 million showerheads are replaced each year due to wear, remodeling, or other reasons. This means that the vast majority of these existing showerheads have flow rates equal to or less than the federal standard of 2.5 gallons per minute (gpm), which was mandated by the Energy Policy Act (EPAct) of 1992. With normal replacements and units sold for new construction, WaterSense estimates that approximately 25.6 millions new showerheads are sold each year. Since Congress enacted the federal requirements in the early 1990s, manufacturers have gone on to develop showerheads that use significantly less water than the flow rates set in EPAct 1992. These high -efficiency showerheads can save at least 20 percent compared to standard fixtures, resulting in a potential savings of more than 1,200 gallons per showerhead per year. III. WaterSense Specification for Showerheads Scope This specification applies to showerheads and hand-held showers. Showerheads are fixed devices for directing water onto a user for bathing purposes. Hand-held showers, a subset of showerheads, are moveable devices for directing water onto a user. Hand-held showers can be installed on a support to function as a showerhead. Multiple showerheads are eligible to receive the WaterSense label provided the showerheads are sold in combination in a single device intended to be connected to a single shower outlet. Further, each showerhead must meet all of the requirements of the specification and the entire multiple -head system must meet the maximum flow rate requirement of the specification in all possible operating modes. Body sprays are excluded from this specification because their function and design are wholly different than that of a showerhead or hand-held shower. Retrofit devices, including aftermarket flow control devices, are also excluded because the intent of the specification is to recognize and label complete, fully functioning fixtures or fittings, and not individual components. General Requirements Many showerheads are sold with multiple modes to provide the user with options for different spray types (e.g., misting, massaging, or pause). WaterSense wants to maintain manufacturing flexibility and consumer choice for multiple mode showerheads, thus the specification addresses these types of showerheads by requiring all modes to meet the maximum flow rate requirement (i.e., no mode can exceed 2.0 gallons per minute [gpm]) and at least one of the modes, as specified by the manufacturer, must meet all of the requirements contained in the specification, including the maximum and minimum flow rates, spray force, and spray coverage requirements. Water -Efficiency Criteria 5 Units sold for replacement is based upon a 10 percent natural replacement rate. Units sold for new construction is based on 1,797,000 new housing starts per year based on the average number of new housing starts from 2003-2007.from U.S. Census. 2007 American Housing Survey, Table 1A-1. www.census.gov/prod/2008i)ubs/h150-07.i)df. Version 1.0 2 March 4, 2010 EPA WaterSense WaterSense Specification for Showerheads Supporting, Statement The water -efficiency component of this specification establishes a maximum flow rate of 2.0 gpm (7.6 liter per minute [L/min]). WaterSense settled on this flow rate after examining the range of products currently available on the market. This maximum flow rate represents a 20 percent reduction from the current federally allowable maximum flow rate of 2.5 gpm established by EPAct 1992, which is consistent with WaterSense's stated water -efficiency goal. The specification also includes minimum flow rate requirements at 80, 45, and 20 pounds per square inch (psi) of pressure (the upper, mid, and lower range of potential household pressures) to ensure performance and user satisfaction under a variety of household conditions. Specifically, at 45 and 80 psi the tested flow rate cannot be less than 75 percent of the showerhead's maximum "rated ,6 flow rate value. This minimum requirement is specified at both 45 and 80 psi because some showerheads that are designed to compensate and adjust for changes in water pressure will actually produce maximum flow at 45 psi and not at 80 psi. As a result, WaterSense wants to ensure that this minimum flow rate requirement is met at both pressures. Likewise, at 20 psi the tested flow rate cannot be less than 60 percent of the showerhead's maximum rated flow rate value. Table 1 below provides some examples of the allowable minimum flow rates for showerheads with various rated flow rates. Defining minimum flow rate requirements in this manner ensures that the showerhead is designed to provide consistent flow across a range of pressures. Table 1. Example Minimum Flow Rates Showerhead Rated Flow Rate Minimum Allowable Flow Rate 80 psi 45 psi 20 psi 2.0 gpm 1.5 gpm 1.5 gpm 1.2 gpm 1.75 gpm 1.3 gpm 1.3 gpm 1.1 gpm 1.5 gpm 1.1 gpm 1.1 gpm 0.9 gpm 1.0 gpm 0.8 gpm 0.8 gpm 0.6 gpm WaterSense is requiring both the maximum and minimum flow rates of the showerhead to meet the testing and verification protocols for sampling outlined in the Code of Federal Regulations (see 10 CFR 430 Subpart F, Appendix B, Steps 6[b] and 6[a], respectively). The U.S. Department of Energy currently uses the sampling plan outlined in the CFR for assessing compliance of showerhead flow rates with EPAct 1992 requirements, and thus referencing it in this specification provides specific and familiar guidance to third -party certifying bodies for determining whether a showerhead meets the flow rate requirements established by WaterSense. Performance Criteria Establishing performance -based criteria for WaterSense labeled showerheads is critical to ensuring user satisfaction and maintaining the integrity of the WaterSense label. Prior to this specification, however, there were no universally agreed -upon testing protocols for showerhead performance or measures that adequately defined user satisfaction. WaterSense worked with 6 The "rated" flow rate is the showerhead's maximum flow rate, as specified by the manufacturer, verified through testing, and in compliance with this specification. Version 1.0 3 March 4, 2010 EPA WaterSense WaterSense Specification for Showerheads Supporting, Statement the task force to determine, through its expertise and supported by consumer testing, the key performance attributes of showerheads. To measure those attributes in a laboratory setting, the task force undertook an intensive effort to develop test protocols. The spray force and spray coverage requirements contained in the specification are a result of these efforts. Both test protocols subsequently underwent several iterations of round robin testing in various laboratories by multiple manufacturers and independent third -party certifiers in order to ensure that the procedures are repeatable and the results reproducible. Laboratory test data were then compared back to the consumer test data for a variety of showerheads to determine the specific performance levels that are included in the specification. These performance levels define the boundaries for user satisfaction for both spray force and spray coverage. The spray force component of the specification requires a showerhead's spray force to be at least 2.0 ounces (0.56 newtons [N]) at an inlet pressure of 20 psi when the water is flowing. The testing procedure, described in Appendix A of the specification, is a pass/fail test that assesses the relative force of the shower spray through the use of a force balance fixture. The force balance fixture is equipped with a force target on one side that receives the shower spray and counterbalancing weights on the other side, set to the specified force (i.e., 2.0 ounces). As the shower spray hits the force target, the force balance fixture measures the rotation angle of the balance at the pivot point of the two sides (the spray and counterbalancing weights). If the shower spray force is greater than the specified minimum, it will overcome, or move, the counterbalancing weights to or beyond the point of balance, achieved when the angle rotates within 0.10 of zero or past it. Under this scenario the showerhead would pass the force requirements. If the showerhead's force is less than the specified minimum, it will not overcome the counterbalancing weights and the angle of balance will not rotate within 0.10 of zero or past it. Under this scenario, the showerhead would fail the force requirements. The target force of 2.0 ounces specified in the specification represents the lower bounds of user satisfaction based on results from consumer tests using a variety of showerheads. The spray coverage component of the specification, as described in Appendix B of the specification, requires the use of an annular ring gauge consisting of a series of concentric rings, starting with a 2-inch diameter center ring and each successive ring increasing in diameter by 2 inches out to 20 inches. The showerhead is positioned and turned on directly above the surface of the annular ring gauge. The relative amount of water captured in each set of concentric rings provides a representation of the distribution of the spray pattern and can be used to evaluate the showerhead's spray coverage. Simultaneous to the development of the test apparatus, WaterSense gathered consumer test data to determine user preferences with respect to spray coverage. Data showed general dissatisfaction with showerheads that spray with a hollow spot in the center or that have too much water flowing in the center to form a very narrow beam. Thus the criteria contained in the specification were crafted to capture and disqualify showerheads with these types of coverage characteristics. Specifically, to meet the spray coverage requirement, the total volume of water collected in the two center rings (out to 4 inches) cannot exceed 75 percent of the total collected water volume (i.e., the showerhead cannot deliver all its water through a narrow beam in the center). In addition, the total combined volume of water collected in the three center rings (out to Version 1.0 4 March 4, 2010 EPA WaterSense WaterSense Specification for Showerheads Supporting, Statement 6 inches) must be at least 25 percent of the total collected water volume (i.e., the showerhead cannot have a hollow spot in the center). Marking With this specification, WaterSense has adopted a new approach to product and package flow rate marking. The requirements are designed to clarify and clearly indicate which maximum flow rate value the manufacturer is to use. At the outset of certification, the manufacturer specifies a maximum flow rate value ("rated" flow rate), not to exceed 2.0 gpm, which is subsequently verified through testing. WaterSense requires the manufacturer to mark the product and product packaging with this rated flow rate value, so that the information provided to the consumer is both informative and accurate. In addition to marking the product and packaging with the maximum rated flow rate, the product packaging (but not the product itself) must also be marked with the showerhead's minimum flow rate at 45 psi. This minimum flow rate is calculated as 75 percent of the manufacturer's specified maximum flow rate value and is subsequently verified through testing. The purpose of this marking requirement is to assist installers in properly matching showerheads and automatic -compensating mixing valves for installation in order to provide protection against thermal shock and scalding events (see Section V below for more information). Potential Water and Energy Savina Note: Refer to Appendix A for the assumptions and calculations used to derive these estimates. Showerheads with a flow rate of 2.0 gpm or less have the potential to save significant amounts of water both individually and at the national level. Replacing standard showerheads with WaterSense labeled showerheads could save more than 1,200 gallons per showerhead or 2,300 gallons of water per household per year. Based upon the amount of water saved, the average household could save 300 kilowatt hours (kWh) of electricity or 1,500 cubic feet of natural gas that would otherwise be required to heat the water. Nationwide, if WaterSense labeled showerheads were purchased for all normal showerhead replacements and installed in all new construction, WaterSense estimates that water savings could reach 30.3 billion gallons per year. National energy savings could exceed 1.6 billion kWh of electricity and 10.9 million cubic feet (Mcf) of natural gas each year. Cost -Effectiveness Note: Refer to Appendix A for the assumptions and calculations used to derive these estimates. The average homeowner retrofitting his or her showerheads with WaterSense labeled showerheads will realize an accompanying $14 savings on water and wastewater costs annually due to lower water consumption. Factoring in the accompanying energy savings, the average household with electric water heating may save an additional $36, for a combined annual savings of $50. The average household with natural gas water heating may save an additional $18 for a combined annual savings of $32. Version 1.0 5 March 4, 2010 EPA WaterSense WaterSense Specification for Showerheads Supporting, Statement If the average showerhead costs $30 retail, the average payback period for the replacement of two standard showerheads per household with WaterSense labeled models would be approximately 14 months for those with electric water heating and about two years for those heating with natural gas. IV. Certification and Labeling WaterSense has established an independent third -party product certification process, described on the WaterSense Web site at www.er)a.gov/watersense/partners/certification.html. Under this process, products are certified to conform to applicable WaterSense specifications by accredited third -party licensed certifying bodies. Manufacturers are then authorized to use the WaterSense label in conjunction with certified products. V. Other Issues Detailed Drawings for the Force Balance Test Apparatus As the specification indicates, the spray force performance requirement is measured via a force balance test apparatus. This force balance test apparatus was developed by the task force specifically for the purpose of determining a showerhead's compliance with the specification's force requirements; therefore it is not a readily available or mass-produced piece of testing equipment. In addition, the test apparatus needs to be manufactured with very specific tolerances to ensure the results are repeatable and reproducible in any laboratory setting. WaterSense has made available the specification drawings to facilitate the construction of this test equipment. Detailed drawings for the force balance test apparatus are available on the WaterSense Web site at www.er)a.gov/watersense/products/showerheads.html. Health and Safetv In developing this specification, WaterSense and the task force considered potential negative impacts of reducing the flow rate on consumer satisfaction, including potential health and safety issues once these products are installed in the plumbing system. Of particular concern is the potential for increasing the risk of thermal shock or scalding as shower flow rates are reduced. Thermal shock or scalding can be caused when a hot- or cold -water -using device is activated (e.g., flushing the toilet or running the dishwasher) while the shower is running. Water is diverted away from the shower, causing a pressure drop in either the hot or cold water supply line to the shower. As a consequence, the balance of hot and cold water is shifted either to a hotter or colder temperature mix. This sudden change in temperature can either cause a user to abruptly move away from the shower stream, potentially resulting in an injury or fall, or if the temperature increase is severe enough, scalding can occur. To mitigate the risks of temperature -related shower injuries, most U.S. plumbing codes require showers to be outfitted with individual automatic -compensating mixing valves that comply with either the American Society of Sanitary Engineers (ASSE) 1016 or ASME Al 12.18.1/CSA B125.1 standards. An automatic -compensating mixing valve is a device that is installed as part of the shower's flow control that helps to regulate water temperature; it is not part of the showerhead itself. The valve works either through balancing the incoming hot and cold water Version 1.0 6 March 4, 2010 EPA WaterSense WaterSense Specification for Showerheads Supporting, Statement pressures or through controlling the mixed outlet temperature with a thermostatic element that can maintain water temperature to within +/- 3.6°F. Despite advances in plumbing codes and mixing valve technology, thermal shock and scalding risks are still present under two scenarios. First, automatic -compensating mixing valves are currently only required to be tested and certified at a flow rate of 2.5 gpm at 45 psi. When these devices are outfitted with a showerhead that has a lower flow rate, there may not be adequate assurance that the valve is sensitive enough to provide the required protection. This is potentially true for all showerheads, as standard showerheads are currently tested and certified at a flow rate of 2.5 gpm at 80 psi. Second, not all homes are equipped with an automatic - compensating mixing valve. The risks are of particular concern for showerhead retrofits in homes built prior to 1987. As a part of the development of the criteria for showerheads, WaterSense and the task force evaluated the link between flow rate and temperature deviations associated with pressure and temperature changes. The task force gathered and presented data to compare the temperature profiles that result from a drop in hot and cold water pressure for both standard and high - efficiency showerheads under the two risk scenarios: (1) installation with various types of automatic -compensating mixing valves (thermostatic, pressure balancing, or combination) designed for a flow rate of 2.5 gpm at 45 psi and (2) installation without the protection of an automatic -compensating mixing valve. The data showed that the risks are present for showerheads of all flow rates, but that more efficient showerheads are more sensitive to sudden changes in water pressure. As a consequence, a temperature change in water exiting the shower may be amplified when the pressure within the cold water or hot water supply plumbing suddenly changes. Ultimately, WaterSense and the task force came to the conclusion that the thermal shock and scalding risks cannot be fully addressed through the specification for showerheads. First, there is a clear disconnect between the showerhead and automatic -compensating mixing valve compatibility, as the products are tested at different pressures (80 psi and 45 psi, respectively) and currently automatic -compensating mixing valves are only tested at a flow rate of 2.5 gpm. Second, the potential temperature of the hot water is controlled by the design of the hot water heater and delivery system, which can discharge water well in excess of the code required 140OF due to "layering" and the location of the thermostat at a point that is not necessarily the location of the hottest water. Because of the interrelated nature of these three components in the plumbing system, the control of the risks cannot solely rest on the design of the showerhead. In fact, the showerhead itself has very little, if any, control over the outlet water temperature. To the extent possible, WaterSense has addressed this issue in the specification by requiring manufacturers to mark the product packaging with the minimum flow rate at 45 psi as determined by testing at that pressure. This is a vital step toward providing the information necessary to "match" the showerhead with a compatible automatic -compensating mixing valve that is rated to perform at the same flow rate and tested pressure. In addition, industry is currently working to harmonize automatic -compensating mixing valve standards and showerhead standards to address potential incompatibilities of these plumbing system components. This will go a long way toward addressing the risks of thermal shock and scalding associated with the installation of a WaterSense labeled showerhead, indeed with all Version 1.0 7 March 4, 2010 EPA WaterSense WaterSense Specification for Showerheads Supporting, Statement showerheads, particularly in new construction. WaterSense is also educating consumers and program partners regarding the issue and associated risks so that consumers can continue to make informed purchasing decisions. Version 1.0 8 March 4, 2010 EPA WaterSense WaterSense Specification for Showerheads Supporting, Statement Appendix A: Calculations and Key Assumptions Potential Water Savings Calculations Assumptions: • Average actual flow rate for an existing showerhead is 2.22 gpm' (the average flow rate is less than the standard rated flow rate of 2.5 gpm most likely because the products are rated at 80 psi, but installed in homes with less pressure) • Average shower duration is 8.2 minutes" • The average person takes 0.67 showers per day$ • A WaterSense labeled showerhead reduces the flow rate by 20 percent • An estimated 10 percent of existing showerheads are replaced each year due to wear, remodeling, or other reasons • There are an estimated 1,797,000 new housing starts per year based on the average number of new housing starts from 2003-20079 Equation 1. Annual Water Savings Potential from Replacing a 2.5 gpm Rated Showerhead (((2.22 gpm — (2.22 gpm x (1-0.2))) x 8.2 minutes/shower x 0.67 showers/person/day x 2.6 people/household x 365 days/year) = 2,300 gal/household/year (2,300 gal/household/year / 2 showerheads/household) = 1,200 gal/showerhead/year Equation 2. Annual National Water Savings Potential from Replacing All Existing 2.5 gpm Showerheads (1,200 gal/showerhead/year x 220 million existing showerheads) = 260 billion gal/year Equation 3. Annual National Water Savings Potential from Natural Replacement with WaterSense Labeled Showerheads (1,200 gal/showerhead/year x 220 million showerheads * 0.10) = 26 billion gal/year Equation 4. Annual National Water Savings Potential from Installation of WaterSense Labeled Showerheads in New Construction (1,200 gal/showerhead/year x 1,797,000 annual new housing starts x 2 showerheads/household) = 4.3 billion gal/year Unit Abbreviations: gal = gallon gpm = gallons per minute psi = pressure per square inch Potential Energy Savings Calculations Mayer and DeOreo, Op. cit., 102. 8 Calculated based upon an assumed 17.2 gallons per shower and 11.6 gallons per day for showering. �lbid.) U.S. Census. 2007 American Housing Survey, Table 1A-1. www.census.gov/prod/2008pubs/h150- 07.pdf. Version 1.0 9 March 4, 2010 EPA WaterSense WaterSense Specification for Showerheads Supporting, Statement Assumptions: • Approximately 73 percent of showerhead water used in a household is hot water10 • 42,239,000 (approximately 40 percent) of occupied residences in the United States heat their water using electricity" • 60,998,000 (approximately 56 percent) of occupied residences in the United States heat their water using natural gas'1,12 • Water heating consumes 0.18 kWh of electricity per gallon of water heated assuming: o Specific heat of water = 1.0 Btu/Ib x ° F 0 1 gallon of water = 8.34 Ibs 0 1 kWh = 3,412 Btus o Incoming water temperature is raised from 550 F to 1200 F (A 65 ° F) o Water heating process is 90 percent efficient for electric hot water heaters Water heating consumes 0.88 Mcf of natural gas per 1,000 gallons of water heated assuming: o Specific heat of water = 1.0 Btu/Ib x ° F 0 1 gallon of water = 8.34 Ibs 0 1 Therm = 99,976 Btus o Incoming water temperature is raised from 551 F to 1200 F (A 65 ° F) o Water heating process is 60 percent efficient for natural gas hot water heaters Electricity Equation 5. KWh Required to Raise 1 Gallon of Water 65° F [(1.0 Btu/Ibs x ° F) (1 kWh/3,412 Btus) / (1 gal/8.34 Ibs) x 651 F] / 0.90 = 0.18 kWh/gal Equation 6. Electricity Saving Potential per Household (2,300 gal/year x 0.73) x (180 kWh of electricity/1,000 gal) = 300 kWh of electricity per year Equation 7. National Electricity Savings Potential from Replacing All Existing 2.5 gpm Showerheads (260 billion gal/year x 0.73 x 0.40) x (180 kWh of electricity/1,000 gal) = 14 billion kWh of electricity nationwide Equation 8. National Electricity Savings Potential from Natural Replacement with WaterSense Labeled Showerheads (26 billion gal/year x 0.73 x 0.40) x (180 kWh of electricity/1,000 gal) = 1.4 billion kWh of electricity nationwide Equation 9. National Electricity Savings Potential from Installation of WaterSense Labeled Showerheads in New Construction 10 DeOreo, William B., and Peter W. Mayer. The End Uses of Hot Water in Single Family Homes From Flow Trace Analysis. 2000. Aquacraft, Inc. 11 U.S. Department of Housing and Urban Development and U.S. Census Bureau. American Housing Survey for the United States: 2007. 2008. Table 1A-5, page 7. 12 Ibid. Version 1.0 10 March 4, 2010 EPA WaterSense WaterSense Specification for Showerheads Supporting, Statement (4.3 billion gal/year x 0.73 x 0.40) x (180 kWh of electricity/1,000 gal) = 230 million kWh of electricity nationwide Natural Gas Equation 9. Therms Required to Raise 1 Gallon of Water 65° F [(1.0 Btu/Ibs x ° F) (1 Therm/99,976 Btus) / (1 gal/8.34 Ibs) x 651 F] / 0.60 = 0.009 Therms/gal Equation 10. Converting Therms to Mcf 0.009 Therms/gal x 1,000 gal/kgal x 1 Mcf/10.307 Therms = 0.88 Mcf/kgal Equation 11. Natural Gas Savings Potential per Household (2,300 gal/year x 0.73) x (0.88 Mcf of natural gas/1,000 gal) = 1.5 Mcf (1,500 cubic feet) of natural gas per year Equation 12. National Natural Gas Savings Potential from Replacing All 2.5 gpm Showerheads (260 billion gal x 0.73 x 0.56) x (0.88 Mcf of natural gas/1,000 gal) = 94 million Mcf of natural gas nationwide Equation 13. National Natural Gas Savings Potential from Natural Replacement with WaterSense Labeled Showerheads (26 billion gal x 0.73 x 0.56) x (0.88 Mcf of natural gas/1,000 gal) = 9.4 million Mcf of natural gas nationwide Equation 14. National Natural Gas Savings Potential from Installation of WaterSense Labeled Showerheads in New Construction (4.3 billion gal/year x 0.73 x 0.56) x (0.88 Mcf of natural gas/1,000 gal) = 1.5 million Mcf of natural gas nationwide Unit Abbreviations: Bcf = billion cubic feet Btu = British thermal unit F = Fahrenheit kgal = kilogallons kWh = kilowatt hour Ibs = pounds Mcf = thousand cubic feet Cost -Effectiveness Calculations Assumptions: • Price of water and wastewater is $6.06/1000 gallonS13 • 2009 Price of electricity is $0.12/kWh14 • 2009 Price of natural gas is $11.98/Mcf15 13 Raftelis Financial Consulting. Water and Wastewater Rate Survey. American Water Works Association. 2006. 14 U.S. Department of Energy, www.eia.doe.gov/cneaf/electricity/epm/table5 3.html. Version 1.0 11 March 4, 2010 EPA WaterSense WaterSense Specification for Showerheads Supporting, Statement Equation 15. Annual Household Water and Wastewater Cost Savings 2,300 gallons/year x $6.06/1,000 gallons = $14/year Equation 16. Annual Household Electricity Savings (300 kWh/household/year * $0.12/kWh) = $36/year Equation 17. Annual Household Natural Gas Savings (1.5 Mcf/household/year * $11.98/Mcf) = $18/year Equation 18. Annual Water, Wastewater, and Electricity Savings ($14/year + $36/year) = $50/year Equation 19. Annual Water, Wastewater, and Natural Gas Savings ($14/year + $18/year) = $32/year Equation 11. Average Full Payback Period (Electric Water Heating) ($30/showerhead x 2 showerheads/household) / $50/year = 1.2 years (-14 months) Equation 12. Average Full Payback Period (Natural Gas Water Heating) ($30/showerhead x 2 showerheads/household) / $32/year = 1.9 years (- 23 months) 15 U.S. Department of Energy, www.eia.doe.gov/steo. Version 1.0 12 March 4, 2010 EPA WaterSense WaterSense° Specification for Tank -Type Toilets Version 1.2 June 2, 2014 FPA 16 WaterSense WaterSense® Specification for Tank -Type Toilets WaterSense° Specification for Tank -Type Toilets 1.0 Scope and Objective This specification establishes the criteria for a tank -type high -efficiency toilet under the U.S. Environmental Protection Agency's (EPA's) WaterSense program. It is applicable to: • Single -flush, tank -type gravity toilets • Dual -flush, tank -type gravity toilets • Dual -flush, tank -type flushometer tank (pressure -assist) toilets • Tank -type, flushometer tank (pressure -assist) toilets • Tank -type electrohydraulic toilets • Any other tank -type technologies that meet these performance specifications The specification is designed to ensure both sustainable, efficient water use and a high level of user satisfaction with flushing performance. 2.0 General Requirements 2.1 The toilet shall conform to applicable water closet requirements in ASME All 12.19.2/CSA B45.1,' except as otherwise indicated in this specification. 2.2 If the toilet has dual -flush capabilities, it shall conform to requirements in ASME All 12.19.14. 3.0 Water Efficiency Criteria 3.1 Single -flush toilets: The effective flush volume shall not exceed 1.28 gallons (4.8 liters) when evaluated in accordance with the sampling plan contained in 10 CFR 429.30. For single -flush toilets, the effective flush volume is the average flush volume when tested in accordance with ASME All 12.19.2/CSA B45.1. 3.2 Dual -flush toilets: The effective flush volume shall not exceed 1.28 gallons (4.8 liters) when evaluated in accordance with the sampling plan contained in 10 CFR 429.30. For dual -flush toilets, the effective flush volume is the average flush volume of two reduced flushes and one full flush. Flush volumes shall be tested in accordance with ASME All 12.19.2/CSA B45.1 and ASME All 12.19.14. 3.3 Samples with average flush volume in excess of 0.10 gallon (0.4 liter) greater than their rated flush volume shall be deemed to fail testing requirements due to excessive flush volume.2 References to this and other standards apply to the most current version of that standard. 2 For example, fixtures rated at 1.28 gallons per flush (the maximum flush volume) but flushing at greater than 1.38 gallons (5.2 liter) when adjusted in accordance with the water consumption test procedure in ASME Al 12.19.2/CSA B45.1 shall be deemed to have "failed" the requirements of this specification. Version 1.2 1 June 2, 2014 FPA 16 WaterSense WaterSense° Specification for Tank -Type Toilets 3.4 Samples with average flush volumes less than or equal to 0.10 gallon (0.4 liter) greater than their rated flush volume shall be adjusted, if possible, to their rated flush volume prior to performance testing. 3.5 Samples with average flush volumes less than their rated flush volume shall be tested at measured volume and this volume shall be recorded on the test report. 4.0 Flush Performance Criteria 4.1 Toilet model performance is identified as either a "pass" or "fail" depending upon whether it can successfully and completely clear all test media from the fixture in a single flush in at least four of five attempts. Flush performance testing shall be conducted in accordance with the waste extraction test protocol provided in ASME All 12.19.2/CSA B45.1. 5.0 Product Marking 5.1 Toilet fixtures shall be marked in accordance with requirements in ASME All 12.19.2/CSA B45.1 with the exception identified in Section 5.1.1 below. 5.1.1 Toilet bowls intended to be used with tanks of varying consumption levels (e.g., 1.6 and 1.28 gallons per flush) shall be marked with a dual consumption marking or a consumption range, as indicated in ASME All 12.19.2/CSA B45.1; however, toilet bowls shall not be marked with the words "or less" to indicate compatibility with tanks of varying consumption levels. 5.2 Toilet tanks shall not be packaged, marked, nor provided with instructions directing the user to an alternative water use setting that would override the rated flush volume, as established by this specification. Any instruction related to the maintenance of the product shall direct the user on how to return the product to its rated flush volume. 6.0 Effective Date This specification is effective on June 2, 2014. 7.0 Future Specification Revisions EPA reserves the right to revise this specification should technological and/or market changes affect its usefulness to consumers, industry, or the environment. Revisions to the specification would be made following discussions with industry partners and other interested stakeholders. 8.0 Definitions Definitions within ASME All 12.19.2/CSA B45.1 and ASME All 12.19.14 are included by reference. Version 1.2 2 June 2, 2014 EPA 16 WaterSense WaterSense® Specification for Tank -Type Toilets Pressure -assist toilet: A water closet that uses a flushometer tank as a flushing device, as defined in ASME All 12.19.2/CSA B45.1. Rated flush volume: The maximum flush volume, as specified by the manufacturer, verified through testing and in compliance with this specification. Version 1.2 3 June 2, 2014 FVA 16 WaterSense WaterSense' Specification for Tank -Type Toilets Appendix A: Requirements for WaterSense Labeling The following requirements must be met for products to be bear the WaterSense label. 1.0 WaterSense Partnership The manufacturer of the product must have a signed partnership agreement in place with EPA. 2.0 Conformity Assessment Conformance to this specification must be certified by an EPA licensed certifying body accredited for this specification in accordance with the WaterSense Product Certification System. 3.0 Clarifications 3.1 Adjustability Toilet tanks with adjustable water use settings that can be identified and activated by a user or plumbing professional to override the rated flush volume, as established by this specification, do not comply with the intent of this specification or the WaterSense program and do not qualify for use of the WaterSense label. 3.2 Tanks and Bowls Manufactured and Sold by Different Companies WaterSense requires every combination tank and bowl to be tested and certified for conformance to this specification in order to ensure that the toilet as a whole provides the expected water efficiency and performance. Wall -hung bowls and in -wall carrier systems manufactured and sold by different companies can earn the WaterSense label, provided that the combination unit is tested and certified. However, since these products might not necessarily be sold as a unit, WaterSense has established some additional certification requirements that these products must meet in order to earn the WaterSense label. Both manufacturers must agree to have their products tested and certified together in order for the tank and bowl combination to receive the WaterSense label. Certification Listing In order to control the use of the WaterSense label, EPA is requiring each manufacturer (e.g., the tank manufacturer and the bowl manufacturer) to obtain a certification listing with one of EPA's licensed certifying bodies to show that the toilet, formed by the combination tank and bowl, was certified for conformance to the specification. The listings must identify both components, along with the respective manufacturers' names, 3 Manufacturer, as defined in the WaterSense program guidelines, means: "Any organization that produces a product for market that might be eligible to meet WaterSense criteria for efficiency and performance. Manufacturers can also produce 'private label' products that are sold under the brand name of a separate organization, which is treated as a separate partner/application from the original product manufacturer." In the case of private labeling, the private labeling organization that ultimately brands the product for sale must have a signed WaterSense partnership agreement in place with EPA. Version 1.2 A-1 June 2, 2014 FVA 16 WaterSense WaterSense' Specification for Tank -Type Toilets brand names, model names, and model numbers by which the products are identified and sold. Separate listings will allow the licensed certifying body to directly authorize each manufacturer to use the WaterSense label on their tanks or bowls. Note that though a certification listing is required for each manufacturer, WaterSense is not requiring the combination toilet to be tested more than once. The licensed certifying body must ensure that the listing information is complete prior to issuing the certification and the WaterSense label to either manufacturer. As an alternative to separate listings, and at the discretion of the licensed certifying body, the manufacturer of one of the components (e.g., either the tank or bowl manufacturer) can become listed as an additional company under the certification listing of the manufacturer of the corresponding component (e.g., the bowl or tank). However, both components, along with the respective manufacturer's names, brand names, model names, and model numbers by which the products are identified and sold, must be identified under both the certification file owner's listing and the additional company's listing. This will ensure that there is no confusion about which products were certified in combination to earn the WaterSense label. 3.3 Product Packaging Marking and Labeling Though every combination tank and bowl must be tested and certified for conformance to this specification in order to ensure that the toilet as a whole provides the expected water efficiency and performance, in some cases the tank and bowl might be packaged individually and/or sold separately. To ensure that it is clear to the purchaser that a particular combination tank and bowl is labeled, EPA is providing clarification regarding how the packaging must be marked and how the WaterSense label must be used. These marking and labeling requirements apply to tanks and bowls made by the same company and those made by different companies, as is the case for some wall -hung bowls and in -wall carrier systems. Manufacturers must adhere to the following product packaging marking and labeling requirements for toilet tanks and bowls packaged and sold individually: • In all cases, the toilet tank and toilet bowl packaging must bear the WaterSense label. • Toilet bowl packaging must indicate all of the specific brand names, model names, and model numbers, as applicable, of the counterpart tanks it can be used with to form a WaterSense labeled tank -type toilet. For example, the toilet bowl packaging might say: "This [insert description of bowl] is WaterSense labeled when used with [list brand names, model names, and model numbers, as applicable, of the tank(s) that the bowl can be used with to form a WaterSense labeled tank -type toilet]." Version 1.2 A-2 June 2, 2014 FVA 16 WaterSense WaterSense' Specification for Tank -Type Toilets • Product specification sheets or other product documentation for both the toilet tank and bowl must indicate all of the specific brand names, model names, and model numbers, as applicable, of the counterpart products (e.g., the bowl or tank) that the product can be used with to form a WaterSense labeled tank -type toilet. Note that for toilet tanks and bowls packaged and sold together as a unit, the packaging must bear the WaterSense label. Version 1.2 A-3 June 2, 2014 6 i 11A Summary of Revisions to the WaterSense WaterSense° Specification for Tank -Type Toilets Summary of Revisions to the WaterSense° Specification for Tank -Type Toilets Version 1.2 The U.S. Environmental Protection Agency's (EPA's) WaterSense program is announcing the release of Version 1.2 of its WaterSense Specification for Tank -Type Toilets (specification). The purpose of this document is to summarize the revisions made to the specification, share the reasoning for the changes, and provide a timeline for compliance with the new requirements. It is important to note that EPA considers the revisions made in Version 1.2 of the specification to be minor in nature. The revisions are meant to provide clarification of the existing requirements and do not materially affect the scope, performance, or efficiency requirements. The revisions also do not affect the status of existing certified, WaterSense labeled tank -type toilets. Background WaterSense released its initial Tank -Type High -Efficiency Toilet Specification in January 2007 and issued the first revision to the specification in May 2011. Since that time, the American Society of Mechanical Engineers (ASME) and Canadian Standards Association (CSA) have revised ASME All 12.19.2/CSA B45.1 Ceramic Plumbing Fixtures to include the waste media extraction test, fill valve integrity test, and tank trim adjustability test protocols established in the WaterSense Specification for Tank -Type Toilets. To align with the revised ASME All 12.19.2/CSA B45.1 standard, to the extent possible, WaterSense is issuing Version 1.2 of the specification. The changes to the specification, described in this document, will ensure consistency and reduce redundancy in toilet testing for manufacturers seeking the WaterSense label. WaterSense has also taken this opportunity to make some additional minor revisions to the specification to align it with the other WaterSense product specifications. All of the revisions contained in Version 1.2 will ensure that tank -type toilets receiving the WaterSense label are certified and labeled consistently, in accordance with EPA's intent, and will continue to meet consumer expectations for efficiency and performance. Section 2.0 General Requirements EPA has revised the title of the section from "Summary of Criteria" to "General Requirements." This change does not affect the specification's original scope of objective, but rather aligns the organization of the specification with other WaterSense product specifications. Similarly, to align with other WaterSense product specifications, EPA has revised the content of Section 2.0 to provide the general and overarching requirements that products must meet to earn the WaterSense label, rather than a summary of the specification requirements. This section now indicates that all tank -type toilets shall conform to the applicable water closet requirements in ASME All 12.19.2/CSA B45.1, and all dual -flush tank -type toilets must conform to applicable requirements within ASME All 12.19.14 Six -Liter Water Closets Equipped With a June 2, 2014 6 FM,1 Summary of Revisions to the WaterSense WaterSense° Specification for Tank -Type Toilets Dual Flushing Device. This change now more fully and clearly aligns the specification with the requirements of the guiding national standards for tank -type toilets. Section 3.0 Water Efficiency Criteria Flush Volume Measurement Requirements The majority of the fixture performance testing protocol, originally provided in Appendix A of the specification, is included in the recent revisions to the ASME All 12.19.2/CSA B45.1 standard. The fixture performance testing protocol is now incorporated by reference in Section 2.0 of the specification. However, the ASME/CSA standard does not address the average flush volume limits that dictate whether a toilet is deemed to pass or fail the flush volume test or whether the flush volume should be adjusted to complete the test. As a result, WaterSense has retained these requirements in the specification. As discussed below, Appendix A was removed from the specification because a majority of the requirements are now redundant with the All 12.19.2/CSA B45.1 standard; therefore, WaterSense moved these flush volume limit requirements to Section 3.0 Water Efficiency Criteria. This change does not affect the specification's original requirements or intent. Section 4.0 Flush Performance Criteria Testing Protocol Reference In Version 1.1 of the specification, the fixture performance testing protocol was identified in Appendix A. Since the protocol is now included in the recent revisions to the ASME All 12.19.2/CSA B45.1 standard, WaterSense has updated Section 4.0 Flush Performance Criteria to reference compliance with the standard rather than Appendix A (Appendix A has been subsequently deleted). In addition, under Version 1.1, this section summarized the test media requirements. It also stipulated that the protocol was only applicable to single -flush toilets and to the full flush option of dual -flush toilets. These requirements are also covered in the referenced standards and, therefore, WaterSense removed them from this section to minimize redundancy. In addition, in the development of the revised ASME All 12.19.2/CSA B45.1 standard, there was consensus that the casing used for the test media did not materially affect the results of the test. Either cased or uncased media were deemed acceptable for performance testing. In view of this decision and because of the desire for the WaterSense specification to be consistent with the standard, EPA has determined that performance testing using cased or uncased media is acceptable under this specification. This allowance is included by reference to the standard. Section 5.0 Supplementary Requirements for Flush Volume Adjustability (Version 1.1) Section Removal June 2, 2014 6 FM,1 Summary of Revisions to the WaterSense WaterSense° Specification for Tank -Type Toilets In Version 1.1 of the specification, Section 5.0 Supplementary Requirements for Flush Volume Adjustability included testing protocols intended to limit the flush volume adjustability of certified tank -type toilets. These testing protocols included the fill valve integrity test protocol (Appendix B of Version 1.1 of the specification) and the tank trim adjustability testing protocol (Appendix C of Version 1.1 of the specification). These testing protocols were adopted by the ASME All 12.19.2/CSA B45.1 standard, which is now incorporated by reference in Section 2.0 of the specification. Therefore, WaterSense removed these requirements from the specification to minimize redundancy. This change does not affect the specification's original requirements or intent. Section 5.0 Product Marking Tank Marking Requirements Toilet tank marking requirements identified in ASME Al 12.19.5 Flush valves and spuds for water closets, urinals, and tanks (referenced in Version 1.1 of the specification) require manufacturers to permanently mark or label the tank with information pertaining to the appropriate flush valve replacement parts. These requirements have subsequently been incorporated into ASME All 12.19.2/CSA B45.1. Therefore, WaterSense updated the specification to reference compliance with the toilet fixture marking requirements identified in the ASME All 12.19.2/CSA B45.1 standard. Bowl Marking Version 1.1 of the specification allowed toilet bowls to be marked in a manner that indicated compatibility with flush volumes below 1.6 gallons per flush (gpf). This requirement was intended to alleviate confusion because many manufacturers were marking their toilet bowls with a 1.6 gpf flush volume despite compatibility and certification with tanks that flush at lower volumes (e.g., 1.28 gpf). The revisions to ASME All 12.19.2/CSA B45.1 now include provisions clarifying the marking requirements for bowls that are compatible with lower (or varying) flush volumes. Specifically, the standard allows toilet bowls to be marked using the words "or less," a dual consumption marking, or a consumption range. WaterSense is incorporating by reference the bowl marking requirements from the ASME/CSA standard, which will provide clarity on the appropriate ways to mark bowls that are compatible with a range of flush volumes. However, WaterSense is taking exception to the allowance for the use of the words "or less." Placing a marking on the bowl that identifies a maximum flush volume along with the words "or less" could imply that the bowl is compatible with tanks of any flush volume, potentially below the minimum the flush volumes with which the bowl was certified to perform. Section 8.0 Definitions Referenced Standards June 2, 2014 6 FM,1 Summary of Revisions to the WaterSense WaterSense° Specification for Tank -Type Toilets WaterSense has removed the reference to ASME All 12.19.5, as the marking requirements have been incorporated into ASME All 12.19.2/CSA B45.1. Definitions WaterSense has removed the definition of an electrohydraulic toilet because it is incorporated by reference in ASME All 12.19.2/CSA B45.1. WaterSense has revised the definition of a pressure -assist toilet to use language consistent with definitions included in ASME All 12.19.2/CSA B45.1. WaterSense has revised the definition of rated flush volume to be consistent with the definition included in other WaterSense product specifications. The new definition clarifies that the rated flush volume is specified by the manufacturer and verified through testing to ensure compliance with the specification. Appendix A: Fixture Performance Testing Protocol (Version 1.1) Section Removal As mentioned previously, a majority of the fixture performance testing protocol, originally provided in Appendix A of Version 1.1 of the specification, is now incorporated by reference in the ASME All 12.19.2/CSA B45.1 standard. One exception is the flush volume measurement limits that dictate whether the toilet passes, fails, or should be readjusted for testing. To reduce redundancy with the standard, WaterSense has subsequently moved these requirements to Section 3.0 and has removed the entirety of Appendix A from the specification. This change does not affect the specification's original requirements or intent. Appendix B: Fill Valve Integrity Test Protocol (Version 1.1) Section Removal As mentioned previously, the fill valve integrity test protocol, originally provided in Appendix B of Version 1.1 of the specification, is now incorporated by reference in the ASME All 12.19.2/CSA B45.1 standard. To reduce redundancy with the standard, WaterSense has subsequently removed the entirety of Appendix B from the specification. This change does not affect the specification's original requirements or intent. Appendix C: Tank Trim Adjustability Testing Protocol (Version 1.1) Section Removal As mentioned previously, the tank trim adjustability testing protocol, originally provided in Appendix C of Version 1.1 of the specification, is now incorporated by reference in the ASME All 12.19.2/CSA B45.1 standard. To reduce redundancy with the standard, WaterSense has June 2, 2014 6 FM,1 Summary of Revisions to the WaterSense WaterSense° Specification for Tank -Type Toilets subsequently removed the entirety of Appendix C from the specification. This change does not affect the specification's original requirements or intent. Appendix A: Requirements for WaterSense Labeling Section 3.3 Product Packaging Marking and Labeling Section 3.3 of Appendix A provides additional product packaging marking and labeling requirements for toilet tanks and bowls that are packaged and sold individually. Version 1.1 prohibited the WaterSense label on toilet bowl packaging that indicated compatibility with flush volumes greater than the rated flush volume identified in this specification. WaterSense developed that requirement to prevent confusion about whether a bowl with an advertised flush volume higher than the maximum allowed by the specification was actually labeled. The new bowl marking requirements identified in ASME All 12.19.2/CSA B45.1, and now incorporated by reference in the specification, should eliminate this confusion as toilet bowls can be marked with a dual consumption marking or a consumption range to indicate compatibility with multiple flush volumes. Therefore, EPA is now requiring the toilet tank and bowl packaging, in all cases, to bear the WaterSense label. Timeline for Compliance with Version 1.2 of the Specification Version 1.2 of this specification goes into effect June 2, 2014. EPA is providing manufacturers with a six-month grace period to begin complying with the new requirements. By December 2, 2014 all certification activities must be completed in accordance with Version 1.2 of this specification, in order for tank -type toilets to earn the WaterSense label. The existing licensing agreements between EPA and the licensed certifying body will remain in full force and effect. June 2, 2014 Clothes Washer Clothes Washer I Home Water Works Terms of Use Water Calculator Water Conservation Tips Indoor Water Use Toilets Clothes Washer Showers Faucet Dishwasher Leaks DIY - Installation How to Read Your Water Meter Landscape & Irrigation Water & Energy About Us Crisp, Clean Clothes Without the Waste Washing laundry is a significant use of water in the average home; accounting for 15% to 40% of the overall water consumption inside the typical household of four persons. The average American family washes almost 400 loads of laundry each year. Water Factor Because washers come in various sizes and capacity, the water efficiency of clothes washers is rated using the term "Water Factor" to accurately compare water use. Water Factor (WF) is measured by the quantity of water (gallons) used to wash each cubic foot of laundry. Older Washers An old school washer will use approximately 40 to 45 gallons (151.4 L to 170.3 L) of water per load and have a water factor of 10 or higher. A family of four using a standard clothes washer will generate more than 300 loads per year, consuming 12,000 gallons (45.4 m3) of water annually. High Efficiency Washers New, High -Efficiency Washers (HEW) (front loading or top loading machines are available) can use 14 to 25 gallons (53 L to 94.6 L) of water per load and will have a water factor of 8 or less. Replacing an old and inefficient clothes washer can reduce this water use by more than 6,000 gallons per year (22.7 m3), save energy, clean the clothes better, and reduce fabric wear. Clothes Washer Water Saving Tips 1. Run full loads only, even if the washer has an adjustable load setting. A full load is the most efficient way to wash clothes. 2. Replace the old inefficient clothes washer with a new high -efficiency model to save water and energy. https://www.home-water-works.org/indoor-use/clothes-washer 1 /2 1 /28/2020 Clothes Washer I Home Water Works More Information About Clothes Washers Standard Washers The standard top loading clothes washer, using a vertical -axis drum, has changed little from General Electric's design in 1947. The vertical axis design requires enough water in the drum to suspend the fabric in the soapy water while the agitator churns the clothes to help remove dirt and stains. The large amount of water required to suspend the fabric in the tub limits the ability for this type of washer to efficiently use water. Historically, vertical axis washers consumed 45 gallons per load (170 L), though newer models of the past few years have reduced this to less than 40 gallons per load (151.4 L). Even the best designs manufactured today require more than 9 gallons (34.1 L) of water per cubic foot of capacity (28.31 L). High -Efficiency Washers High -efficiency front or top loading washers facilitate greater efficiency because they use less water and energy. These high-tech machines are proven to be more effective in cleaning the clothes with less water, and is gentler on the fabric when compared to old -school vertical axis washers. Additional benefits of lower water use are: a) less laundry detergent is required; and, b) less water needs to be heated resulting in energy conservation. Most high -efficiency washers use only 15 to 30 gallons (56.8 to 113.6 L) of water to wash the same amount of clothes as older washers (29 to 45 gallons per load (109.7 to 170 L). The most efficient washers use less than 5 gallons (18.9 L) per cubic foot of capacity. Water Efficiency of Washers The smaller the water factor rating, the more water efficient the clothes washer. A typical residential clothes washer has a capacity of approximately 3 cubic foot, though sizes range from 1.7 cubic feet (48.13 L) to more than 4.2 cubic feet (118.9 L) for the extra large capacity machines. The Water Factor provides a means to directly compare water efficiency of different sized machines. Efficiency Example Washer A uses 32 gallons of water per load (wash and rinse cycles) with a 4 cubic foot capacity of laundry; thus, has a Water Factor rating of 8 (32-4=8). Washer B uses 30 gallons of water (wash and rinse cycles) with a 2.5 cubic foot capacity; thus, has a Water Factor rating of 12 (30-2.5=12). Washer A uses water more efficiently (WF=8) than Washer B (WF=12). While Washer A uses slightly more water per load, it can clean 40% more clothes per load. Looking for a New Water Efficient Washer? When buying a new machine, finding the Water Factor rating of a clothes washer is not always easy. Though manufacturers measure Water Factors for each model of washer, manufacturers are not required to display the rating on the machine. Fortunately, the Energy Star Program reports Water Factors and energy use for nearly every HEW in the market. Listing of High Efficiency Clothes Washers Are you in the market for a new clothes washer? The most recent listings of high -efficiency clothes washers are provided here: CEE Residential Clothes Washers Qualifying Product List https://www.home-water-works.org/indoor-use/clothes-washer 2/2 1 /28/2020 Energy Efficient Washing Machine I ENERGY STAR CLOTHES WASHERS OVERVIEW SPECIFICATION BUYING GUIDANCE PROMOTIONS For Partners The average American family washes about 300 loads of laundry each year. ENERGY STAR can help families cut their related energy and water costs. ENERGY STAR certified clothes washers use about 25% less energy and 33% less water than regular washers. Over the lifetime of the product, models that have earned the ENERGY STAR can save $380 in energy costs. They have a greater tub capacity which means you can wash fewer loads to clean the - same amount of laundry. They are available in front -load and top -load models from brands including Blomberg, Asko, GE, Kenmore, LG, Samsung, Whirlpool, and many more. ENERGY STAR top -load models utilize new technologies that do not require the tub to fill with r water. They clean using sophisticated wash systems to flip or spin clothes through a stream of water. Many have sensors to monitor incoming water levels and temperature. They also rinse clothes with repeated high-pressure spraying instead of soaking them in a full tub of water. Consider the following: • Use less energy. On average, a new ENERGY STAR certified clothes washer uses 316 kWh of electricity and can save you about $35 a year on your utility bills compared to a standard model. • Use less water. A full-sized ENERGY STAR certified clothes washer uses 14 gallons of water per load, compared to the 20 gallons used by a standard machine. That's a savings of more than 2,000 gallons of water, per year!! • Is your washer over 10 years old? It's estimated that there are 74 million top -loading washers and 24 million front - loading washers - 26 million of which are at least 10 years old, still in use across the country. Washers that are approximately 10 years old are significantly less efficient than newer models. Together, these inefficient washers cost consumers about $4.7 billion each year in energy and water. If you have a standard clothes washer that is approximately 10 years old, it's costing you, on average $185 a year. If every clothes washer purchased in the U.S. was ENERGY STAR certified, we could save more than $3.3 billion each year and prevent more than 19 billion pounds of annual greenhouse gas emissions, equal to the emissions from more than 1.8 million vehicles. https://www.energystar.gov/products/appliances/clothes—washers 5. Technical Advisory Council Report for Wastewater Flows from Single Family Dwellings. Executive Summary Wastewater Flows from Single Family Dwellings Study done for the Michigan Technical Advisory Council for Onsite Wastewater Treatment Danielle N. McEachin and Ted L. Loudon Student Intern and Professor, respectively, Agricultural Engineering Department Michigan State University The purpose of this study was to collect, organize and present what is known about the amount of wastewater that can be expected to flow from dwellings. Th goal is to provide designers and regulators with an actual flow based data set from which to develop design flow numbers for sizing systems. The data in this document comes from a variety of sources. Most were found on the Internet, some were found in the library, and others were provided from file data collected by entities in Michigan. The study was restricted to data collected during the years 1980-2000, so that the values determined would be representative of life styles of the present generation. In fact, only two numbers in the data tables are from before 1987. A group of studies providing metered home water use rates presented in units of gpd per capita from around the country were reviewed and summarized. When averages were weighted based on the number of homes per study, the overall weighted average per capita daily water use was just under 51 gpd (Table 1). The value of this data is limited by the fact that much of the data was total use, including outdoor water use, and had to have a correction factor applied. Numerous sources containing recommended per capita design flows were reviewed. Most recommendations are in the 50-70 gpd/c range (Table 4). Perhaps the most valuable data is data gathered in Michigan. A study of metered data from 700 homes in southern Michigan showed an average daily use per home of 214.3 gallons. The three bedroom home average was 221.3 gpd (74 gpd/br) and the four bedroom average was 285.5 gpd (71 gpd/br). A study of measured flows from 66 homes in Jackson County showed flows of 56 gpd per bedroom. Average per person flows, averaged over large numbers of people, appear to be in the 50-55 gpd/c range. Average flows expressed per bedroom, for 3-4 bedroom homes appear to be in the 70-75 gpd/br range. While bedrooms do not generate flow, people do, it is common to design on the basis of number of bedrooms since occupancy varies. For large clusters of homes, designing on the basis of 75 gpd/br would appear to be supported by the data available. For an individual home design, a significant safety or peaking factor must be applied. Many of the references consulted suggest a factor of 2 or even 2.5. Use of a high design flow for individual homes helps to compensate for the state of the art in site evaluation and the occasional high water use occupancy. The Technical Advisory Council will produce a companion guidance document providing recommendations for applying this data in design recommendations. Wastewater Flows from Single Family Dwellings Study done for the Michigan Technical Advisory Council for Onsite Wastewater Treatment Danielle N. McEachin and Ted L. Loudon Student Intern and Professor, respectively, Agricultural Engineering Department Michigan State University Purpose: Rational design of wastewater treatment and dispersal systems is based on the flow that the system must be able to handle. This is usually expressed on a daily flow basis and typically includes a factor of safety which is large for individual home systems and may be reduced as systems are clustered together. The purpose of this study was to collect, organize and present what is known about the amount of wastewater that can be expected to flow from dwellings. The goal is to provide designers and regulators with an actual flow based data set from which to develop design flow numbers for sizing systems. The data in this document comes from a variety of sources. Most were found on the Internet, some were found in the library, and others were provided from file data collected by entities in Michigan. Every effort was made to ensure that the data reflect indoor water use, which eliminates most consumptive uses and represents the flow that would be expected in the wastewater system. Because consumptive uses are hard to eliminate completely, particularly in and climates, we restricted our data to the more humid states. One exception is that a study from Denver, CO is included in which a significant effort was made to eliminate outdoor consumptive uses in the design of the study. The numbers in the Colorado study are higher than those from more humid states but we cannot determine exactly what the reason for this might be. Wherever total water use numbers were encountered they were multiplied by a factor of 0.70 to give indoor water use only. These values are indicated by a *. This factor is based on the findings of multiple studies which measured both indoor and outdoor usage. We restricted our selection of data to include only data collected during the years 1980-2000, so that the values determined would be representative of life styles of the present generation. In fact, only two numbers in the data tables are from before 1987, and these are from a study deemed to be sufficiently reliable that we did not wish to exclude it. The data are divided into four tables. Table I contains data from literature and internal sources that were obtained through actual measurement. This means that the numbers were derived from meter readings at occupied residences. These numbers are from studies where multiple homes were metered and the indoor water use was determined. Only some of these studies reported indoor water use only. For those where the reported values were total use, the 0.70 factor was used to obtain indoor water use numbers. See footnotes following the tabulated data for the basis of this factor. The study done by the American Water Works Association Research Foundation metered 1188 homes to obtain their data. The Denver Board of Water Commissioners metered 5649 homes in the city and county of Denver. The U.S. Department of Housing and Urban Development has conducted many studies on residential water use. In some of their work, they designed studies to obtain as diverse a group of homes as possible by gathering data on each household through issuing a questionnaire to each resident. Their study entitled "Water Saved by Low -flow Fixtures" included water meter data from over 200 homes. They also conducted a study of flow from apartment buildings in which they collected data from 23 buildings. The apartments were noted to be especially leaky and they found unusually high per capita water use. The U.S. Geological Survey published a table with water use values for every state. We selected data from the more humid states and applied the 0.70 factor to obtain indoor water use values. Data were collected from homes where the water supply was from both self -supplied (SS) and public -supplied (PS) sources. Table 2 contains data that was found through actual measurement but is presented as gallons per day per home. The Michigan study done by Equinox Inc. for use in the design of the Mill Valley Condominium Subdivision metered over 700 homes in Livingston and Oakland counties and determined average water use per dwelling. The first 7 entries in Table 2 represent flows averaged over multiple single family dwellings and would be representative of flows to be expected from a cluster of homes. The average flow equals 159 GPD/home over 640 homes. The Michigan Department of Environmental Quality study involved determination of metered flows from over 500 homes in Oakland County and Highland Township. Both of these Michigan studies are believed to be highly reliable but resulted in per home flows that were higher. Table 3 contains data found through actual measurement but the values were presented in the original studies in units of gallons per day per bedroom. This data is from a study done by the Michigan Department of Environmental Quality. In this study, 66 homes were metered in Jackson County and the size of home determined so that the data could be presented in terms of a per bedroom water use average. Table 4 contains data from publications which give representative numbers that are recommended for design of wastewater systems. These are not well referenced so it is unclear whether they originally came from actual use studies or are estimates, possibly including a safety factor, that are simply repeated from another publication. These sources were mostly found on the Internet. After the tables are a set of statements and observations gleaned from literature. The effect of income level and household size on water use is analyzed. Our reasons for using the 0.70 factor are given, a comparison of self -supplied and public -supplied water use is given. Typical times of peak water use are analyzed as are the effects of metering and water pressure. Conclusions that can be drawn: From Table 1, the per capita metered indoor water use data from nationwide studies show an average value of 69 gallons per person per day. The per capita data obtained by applying the 0.70 factor to total water use data found in humid climates shows an average value of 55.2 gallons per day, with a self -supplied average of 50.5, a public -supplied average of 57.7 and a range of 35-86.8. The weighted average per capita water use data for all homes in Table 1 show an overall average use of 50.7 gallons per day, with a self -supplied use of 51.1 and a public -supplied use of 50.47. The per home metered indoor data in Table 2 shows an average of 214.3, with a 3 bedroom average of 221.3, a 4 bedroom average of 285.5 and a range of 140-327. The first 7 entries in Table 2 represents measured flow data from 640 Michigan homes and shows an average of 159 GPD/home. The nationwide data sets show somewhat higher per capita water use. Humid region data suggest that average per capita indoor water use averages between 50 and 70 gpd. Total water use per home averages between 160 and 285 GPD with the larger figure for larger homes. This should be considered a work in progress. We would like to include additional data. If the reader has or is aware of additional data that could be included, we would like to receive it. This summary will be modified if additional data are received or otherwise located. Residential Water Consumption Data, From a Variety of Sources Report by: Danielle McEachin Table 1. Sources whose data was found by actual measurement, measured in GPD/Person Sponsor Source Study Area of Study Time Period Indoor Type of Per capita use or Dwelling daily Total water use use? AWWA Research http://www.awwarf.com/exsums/90781.htm Residential End 12 study sites, Copyright1999 Indoor 1,188 Single- 69.3, Foundation Uses of Water across the U.S. family Including [Project#241] homes Leakage Denver Board of Litke and Kauffman, "Analysis of Residential Use of 16 groups of Data From Indoor 5,649 Single- 64-119 Water Water in the Denver Metropolitan Area, CO, 1980-87 homes in the 1980-87 family Mean = Commissioners city and county homes 85.6 of Denver Rhode Island M. A. Horn, P.A. Craft & Lisa Bratton, "Estimation of Cumberland, Data From Indoor Single- 70 SS Governor's Office of Water Withdrawal and Distribution, Water Use, and Rhode Island 1988 and family (Total) Housing, Energy, Wastewater Collection and Return Flow in Total homes 77 PS and Cumberland, Rhode Island, 1988 (Indoor) Intergovernmental & 90 PS Relations (Total) U.S. Department of Brown and Caldwell, "Residential Water Saved by Nationwide Data from Indoor 200 Single- 66.2 Housing and Urban Water Conservation Projects, Low -flow 1983 family Development, Office Summary Report", 1984 Fixtures homes Retrofit of Washington, Data From Indoor 23 100** Apartment I D. C. 1 198 1 1 Apartment I Including of Policy Development and Research Table 1. (cont.) Source Study Area of Study Time Indoor Type of Per Sponsor Period use or Dwelling capita Total daily use? water use United States http://water.usgLgov//watuse/tables/dotab.st.html Table12. Alabama Data Indoor Single-family 52.5* SS Geological Survey Domestic From homes 70* PS Freshwater Use 1990 by State (States Arkansas Data Indoor Single-family 61.6* SS chosen with From homes 74.2* PS humidity similar 1990 to that of Connecticut Data Indoor Single-family 52.5* SS Michigan) From homes 49* PS 1990 Delaware Data Indoor Single-family 55.3* SS From homes 54.6* PS 1990 Georgia Data Indoor Single-family 52.5* SS From homes 80.5* PS 1990 Illinois Data Indoor Single-family 58.8* SS From homes 63* PS 1990 Indiana Data Indoor Single-family 53.2* SS From homes 53.2* PS 1990 Kentucky Data Indoor Single-family 35* SS From homes 49* PS 1990 Louisiana Data Indoor Single-family 58.1* SS From homes 86.8* PS 1990 Maine Data Indoor Single-family 63* SS From homes 40.6* PS 1990 Maryland Data Indoor Single-family 58.1* SS From homes 73.5* PS 1990 Massachusetts Data Indoor Single-family 50.4* SS From homes 46.2* PS 1990 Michigan Data Indoor Single-family 51.1* SS From homes 53.9* PS 1990 Mississippi Data Indoor Single-family 35* SS From homes 86.1 * PS 1990 Table 1. (cont.) Sponsor Source Study Area of Study Time Indoor Type of Per Period use or Dwelling capita Total daily use? water use United States http://water.usgs.gov//watuse/tables/dotab.st.html Table12. Missouri Data Indoor Single-family 42* SS Geological Survey Domestic From homes 59.5* PS Freshwater Use 1990 by State (States New Hampshire Data Indoor Single-family 45.5* SS chosen with From homes 49.7* PS humidity similar 1990 to that of New Jersey Data Indoor Single-family 52.5* SS Michigan) From homes 52.5* PS (cont.) 1990 New York Data Indoor Single-family 40.6* SS From homes 83.3* PS 1990 North Carolina Data Indoor Single-family 38.5* SS From homes 39.9* PS 1990 Ohio Data Indoor Single-family 52.5* SS From homes 37.5* PS 1990 Pennsylvania Data Indoor Single-family 36.4* SS From homes 43.4* PS 1990 Rhode Island Data Indoor Single-family 49* SS From homes 46.9* PS 1990 South Carolina Data Indoor Single-family 52.5* SS From homes 53.2* PS 1990 Tennessee Data Indoor Single-family 45.5* SS From homes 59.5* PS 1990 Vermont Data Indoor Single-family 50.4* SS From homes 56* PS 1990 Virginia Data Indoor Single-family 52.5* SS From homes 52.5* PS 1990 West Virginia Data Indoor Single-family 56* SS From homes 51.8* PS 1990 Wisconsin Data Indoor Single-family 42.7* SS From homes 36.4* PS 1990 Table 1. (cont.) Sponsor Source Study Area of Time Indoor Type of Per Study Period use or Dwelling capita Total daily use? water use United States http://oh.water.usgs.gov/water use/95huc.html Estimated Water Ohio Data Indoor Single-family 70 SS* Geological Survey Use for Ohio, 1995, From homes 50 PS* by Hydrologic 1995 Cataloging Unit Michigan Department of Public Health Oakland County Oakland Data Total 1512 56.7* Water County, MI From bedroom Use/Population 1991 homes Study 4453 49* bedroom homes 1864 51.8* bedroom homes 30 5 bedroom 57.4* homes SS = Self -supplied Average per capita indoor water use = 50.76 PS = Public -supplied SS average per capita indoor water use = 51.1 *Converted to Indoor Use From Total Use by using the formula Indoor Use = (0.70) Total Use PS average per capita indoor water use = 50.47 ** This study stated these apartments to have an especially large amount of leakage and Range of per capita water use = 35-100 therefore the numbers from these apartments were not used in any averages Table 2. Sources whose data was found by actual measurement, measured in GPD/Home Sponsor Study Area of Study Time Indoor use Type of Dwelling GPD/ Period or Total Home use? Equinox, Inc., Stephens Daniel C. Schrauben and David R. Deer Creek Data From Indoor 3 single-family 148 Consulting, Inc. Beschke, "Basis of Design, Flow 1990 homes Adjustment, Wastewater System, Mill Greenock Hills Data From Indoor 20 single-family 158 Valley Condominium Subdivision", June No. 3 1990 homes 17, 1999. Lake Tyrone Data From Indoor 182 single-family 165 1990 homes Portage Bay Data From Indoor 20 single family 140 1990 homes Runyan Lake Data From Indoor 274 single-family 164 1990 homes Sandy Creek Data From Indoor 5 single-family 154 1990 homes Tanglewood ?? Indoor 136 single-family 145 City of Novi City of Novi Eagle Ravine Milford Bluffs Milford Bluffs Settler's Pointe Table 2. (cont.) Data From Indoor 1990-1992 Data From Indoor 1990-1992 Data From Indoor 1990 Data From Indoor 1990 Data From Indoor 1990 Data From Indoor 1990 homes 4 bedroom home 327 3 bedroom home 234 8 Single-family homes 270 3 bedroom home 222 4 bedroom home 255 3 bedroom home 213 Sponsor Study Area of Study Time Indoor use Type of Dwelling GPD/ Period or Total Home use? Equinox, Inc., Stephens Daniel C. Schrauben and David R. Settler's Pointe Data From Indoor 4 bedroom home 281 Consulting, Inc. Beschke, "Basis of Design, Flow 1990 Adjustment, Wastewater System, Mill Village of Milford ?? Indoor 4 bedroom home 209 Valley Condominium Subdivision", June 17, 1999. (cont.) Village of Milford ?? Indoor 3 bedroom home 206 Michigan Department of Oakland County Water Use/Population Oakland County, Data From Total 3 Bedroom home 197 Public Health Study MI 1991 4 Bedroom home 257 Highland Township, Four Bedroom and Highland Data From Total 3 Bedroom home 256 Three Bedroom Water Usage Comparison Township 1993 4 Bedroom home 284 Average per home indoor water use (all homes) = 214.3 Average indoor water use (3 bedroom homes) = 221.3 Average indoor water use (4 bedroom homes) = 285.5 Range of indoor water use (all homes) = 140-327 Table 3. Sources whose data was found by actual measurement, measured in GPD/BR Sponsor Study Area of Study Time Indoor use Type of Dwelling GPD/ Period or Total Bedroom use? Michigan Department of Engineering Company Review of One Jackson County Data From Total 66 single-family 56 Public Health Subdivision, Jackson County 1991 homes (3 & 4 bedrooms) Tnhle 4 1,ources using nuhlieherl numbers (recommended for rlesion use) Sponsor Source Study Area of Time Indoor Type of Per capita Study Period use or Dwelling daily Total water use use? Auburn http://bermes.ecn.purdue.edu cgi/convertwq97696 Conserving Alabama Data Indoor Single- 50-70 University Water, From family Developing 1995 homes Water - Conserving Habits: A Checklist Domestic http://freehostingl.at.webjump.com/6eba64886/pu/pumpman- Planning N/A Last Indoor Single- 75 Wastewater webjump/plan.htm Your Water Modified family Systems & System May homes Pump Talk, 2000 R.L. Peeks Pump Sales Individual http://www.co.scott.mn.us/EFFISTS/sep ic hun Water Usage Minnesota Data Indoor Single- 52.5*-70* Sewage and Your From family Treatment On -Site 1990 homes System Sewage (ISTS), Scott Treatment County System Kennewick http://www.ci.kennewick.wa.us/pw/watercon.htm 32 Tips on Washington Last Indoor Single- 63.75 Public Water Modified family Works Conservation June homes Department 2000 Michigan hup://he—es.ecn.purdue.edu/cgi/convertwq?5373 How to Michigan Data Indoor Single- 50-70 State Conserve from family University, Water in 1987 homes Extension Your Home and Yard Missouri http://www.dnr.state.mo.us/de/residential/waterusgge.htm Residential Missouri Last Indoor Single- 50 Department Energy Modified family of Natural Efficiency, Mar. homes Resources, Water Usage 2000 Energy Center North http://www.bae.ncsu.edu/bae/programs/extension pubhcat/wgwm/he250.htm1 Focus on North Last Indoor Single- 52.5* Carolina Residential Carolina Modified family Cooperative Water Mar. homes Extension Conservation 1996 Services Polk County, http://www.co.polk.ia.us/departments/conserv/kids.asp.html Water Iowa Last Indoor Single- 50 Department Conservation Modified family of Water for Kids June homes Conservation 2000 Sponsor Source Study Area of Study Time Indoor Type of Per Period use or Dwelling capita Total daily use? water use Prairie Water http://www.quantumlvnx.com/water/back/voll2nol/v21 st2.htm1 Bill Saskatchewan Spring, Indoor Single- 50 SS News, Vol. 12, Anderson, 1992 family no. 1 "Water Use homes Trends on the Prairies" Ron Crites and George Tchobanoglous, "Small and Decentralized Wastewater N/A Copyright, Indoor High rise 55 Management Systems, 1999. 1999 Low rise 55 Hotel 40 Newer 70 home Older 50 home Summer 40 cottage Motel 100 w/kitchen Motel w/o 95 kitchen Trailer 40 ark United States http://www.epa.gov/OGWDW/wot/howmuch.htnl How Much N/A Last Indoor Single- 54.5 Environmental Drinking Modified family Protection Water Do We June 2000 homes Agency (EPA), Use in Our Office of Water Homes United States http://water.usgs.gov/outreach/p2ster3/grade school/PageZhtml Water N/A Last Indoor Single- 79 Geological Resources Modified family Survey Outreach Mar. 2000 homes Program University of http://hennes.ecn.purdue.edu/cgi/convertwq?7541 Home Water Arkansas Data From Indoor Single- 63.75 Arkansas Use 1992 family Management homes University of http://hennes.ecn.purdue.edu/cgi/convertwq?6229 Conserving Georgia Data From Indoor Single- 50-75 Georgia Water at 1991 family Home homes University of http://hennes.ecn.purdue.edu/cgi/convertwq?6453 Conserving Maine Data From Indoor Single- 45-50 Maine Water at 1991 family Home homes Sponsor Source Study Area of Time Indoor Type of Per Study Period use or Dwelling capita Total daily use? water use University http://hennes.ecn.purdue eedu/cgi/cov rrtwq?5321 Margaret T. Maryland ?? Indoor Single- 50-75 of Ordonez, family Maryland "Water homes Conservation In the Home." University htip://www.extension.umn.edu/distribution/youthdevelopment/components/0328- Water Use Minnesota Last Indoor Single- 50 05.html of and Modified family Minnesota Conservation June homes 2000 University http://hermes.ecn.purdue.edu/cgi/convertwq?6425 Alyson Rhode Data Indoor Single- 50-75 of Rhode McCann and Island From family Island Thomas P. 1991 homes Husband, "Water Conservation In and Around the Home.", 1999. SS = Self -supplied Range of per capita water use for homes = 40-79 PS = Public -supplied *Converted to indoor use from total use by using the formula Indoor Use = (0.70) Total Use Interesting Observations on the Effects of Some Factors on Water Use Water -conserving toilets were shown to leak more often than non -conserving ones in the "Water Saved by Low -flow Fixtures" study done by the U.S. Department of Housing and Urban Development. Effects of income level and household size on water use: To determine the effects of income on residential water use, the study "Water Saved by Low -flow Fixtures" by the U.S Department of Housing and Urban Development compared the average interior water use in gallons per capita -day for each household with the average income range for that household. The scatter plot of this data showed a wide variation of per capita water use within each income range. The average interior water use values for each income bracket were also compared, and showed little or no correlation between income and water use. In this same study, the average interior water use in gpcd was compared with household size. A wide variation of water usage within each household size was observed. However, the comparison of average interior water use for each group of household sizes did show a decreasing trend in per capita use as the number of people in the house increased. If outside use were also included in this study, a correlation between income and water use would most likely be observed, due to bigger yard size and pools. In the study, "Analysis of Residential Use of Water in the Denver Metropolitan Area, Co", it was found that Indoor water use correlated best with persons per household and that correlation with assessed value was very low. The Oakland County Water Use/Population Study also showed little or no correlation between assessed value and water use. It is interesting to note, however, that homes with low incomes may not have washing machines or dishwashers, while homes with higher incomes usually do. This could have a great effect on water use. Indoor water use as a function of total water use: Indoor water use is said to be about seventy-five percent of total water use in the document, "Focus on Residential Water Conservation" by the North Carolina Cooperative Extension Service. The book "Small and Decentralized Wastewater Management Systems" states that, "If a community has a water system but not a wastewater collection system, the average wastewater flow -rate can be estimated by multiplying the water use by a factor of sixty -eighty percent, depending on the landscaping." This is approximately equivalent to saying that base water use is sixty -eighty percent of total water use. The Oakland County Water Use/Population Study shows a difference between winter and summer water use of sixty-six percent. Based on these observations some of the total water use data in the above table was multiplied by a factor of 0.70 to get the indoor water use. The study "Analysis of Residential use of Water in the Denver Metropolitan Area, Co" states that, "Water used to grow lawns in Denver is forty-two percent of water consumption." This is because Colorado is a very dry state. Times of peak water use: In the study, "Analysis of Residential Use of Water in the Denver Metropolitan Area, Co", it is stated that, "more water is used in the summer, on Sundays, and from 7 a.m.— 9 a.m." On the ETA's website "How Much Drinking Water Do We Use In Our Homes?", it states that The lowest rate of use is from 11:30 p.m. to 5:00 a.m. There is a sharp rise in use from 5:00 a.m. to noon, with a peak hourly use from 7:00 a.m. to 8:00 a.m. There is a moderate use from noon to 5:00 p.m., with a lull around 3:00 p.m. There is an increase in use in the evening from 5:00 to 11:00 p.m., with the second minor peak from 6:00 to 8:00 p.m. Metered versus flat rate customers: The study, "Water Saved by Metering", done by the U.S. Department of Housing and Urban Development compares metered customers' water use with that of flat rate customers. Denver is unique because it has both metered and flat rate customers. Since 1957, all new homes have been required to be metered. In spite of this, most customers are flat rate because they pre-existed this policy. Because of this, nearly identical homes in the same area can have different billing systems. To study the effect of metering, one group of twenty-five metered homes and two groups of flat -rate homes (forty-two homes total) were identified, and there water use data collected for a period of three -years. The test groups were selected so those factors such as fire hydrants and downstream water uses were eliminated. Over the three-year period of data collection, water use in metered homes averaged about 453 gallons per day (total, 42% is yard watering), and water use in flat -rate homes averaged about 566 gpd. Thus, metered homes used twenty -percent less water than flat -rate homes. The basic effect of metering is to reduce the amount of water used for irrigation. Therefore, water use would be reduced more in a dry area such as Denver than a more humid area. Effect of water pressure on water use: - Reducing water pressure can be one means of reducing water use. A decrease in water pressure causes a decrease in water flow related to the square root of pressure drop. Many water use appliances regulate the volume of water they use, eliminating the effect of water pressure. Water pressure does, however, have an effect on water leakage and outdoor water use. The U. S. Department of Housing and Urban Development did a study on water pressure entitled, "Effect of Water Pressure on Water Use", in which they studied different pressure zones in Denver, Los Angeles, and Atlanta. They found a difference of about two -three percent in the water use of homes with high compared to low pressure (difference of about 35 psi). Equations Related to Water Use The book, "Small and Decentralized Wastewater Management Systems", states that the equation for flow from a residence can be given as: Flow, gal/home*day = 40 gal/home*day + 35 gal/person*day x (number of persons/home). The document, "Water Use", given to me by Larry Stephens describes three types of residences, with separate equations for estimating water use. In a Type I residence the total floor area of the residence divided by the number of bedrooms is more than 800 square feet, or more than two of the following water -use appliances are installed: automatic washer, dishwasher. In a Type I residence the estimated water use is equal to 150 gpd/bedroom. This assumes an occupancy of two people per bedroom, each using 75 gpd. In a Type II residence the total floor area of the residence divided by the number of bedrooms is more than 500 square feet and there are no more than two water -use appliances. Water use in a Type II residence is obtained by multiplying 75 times a factor equal to the number of bedrooms plus one. In a Type III residence the total floor area of the residence divided by the number of bedrooms is more than 500 square feet and there are no more than two water -use appliances. Water use in a Type III residence is obtained from the formula: 66+38(number of bedrooms +1). References Anderson, Bill. 2000. Water Use Trends on the Prairies. Prairie Water News Vol. 12, No. 1 (1992) August 2000. <http://www.quantumlynx.com/water/back/vol2nol/v21 st2.html>. AWWA Research Foundation Webpage. 2000. "Residential End Uses of Water [Project#241]" June2000<http://www.aw-warf.com/exsums/90781.htm>. Brown and Caldwell. 1984. Residential Water Conservation Projects, Summary Report. USDHUD. University of Georgia. August 2000. Conserving Water At Home. <http://hermes.ecn.purdue.edu/cgi/convertwq?6229>. University of Maine. August 2000. Conserving Water At Home. <http://hermes.ecn.purdue.edu/cgi/convertwq?6453>. Auburn University. August 2000. Conserving Water, Developing Water -Conserving Habits: A Checklist. <http://hermes.ecn.purdue.edu/cgi/convertwq? 7696>. Crites, Ron and Tchobanoglous, George, "Small and Decentralized Wastewater Management Systems", 1999. R. L. Peeks Pump Sales. July 2000. Domestic Wastewater Systems and Pump Talk. <http://freehosting1.at.we.bjump.com/6eba64886/pu/pumpman webjump/plan.htm>. United States Geological Survey. August 2000. Estimated Use of Water in the U. S. in 1990. <http://water.usgL.gov//watuse/tables/dotab.st.html>. United States Geological Survey. August 2000. Estimated Water Use for Ohio, 1995. <http://oh.water.usgs.gov/water use/95huc.html>. North Carolina Cooperative Extension Service. August 2000. Focus on Residential Water Conservation. <http://www.bae.ncsu.edu/bae/programs/extension/publicat/wgwm/he250.htm1. University of Arkansas. August 2000. Home Water Use Management. <http://hermes.ecn.purdue.edu/cgi/convertwq?7541>. Horn, M.A., Craft, P.A., Bratton, Lisa. 1988. Estimation of Water Withdrawal and Distribution, Water Use, and Wastewater Collection and Return Flow in Cumberland, Rhode Island. Rhode Island's Governor's Office of Housing, Energy and Intergovernmental Relations. United States Environmental Protection Agency (EPA), Office of Water. August 2000. How Much Drinking Water Do We Use in Our Homes. <http://www.e /www.ep Michigan State University Extension. July 2000. How to Conserve Water in Your Home and Yard. <http://hermes.en.purdue.edu/cgi/convertwq?5373>. Litke and Kauffman. 1988. Analysis of Residential use of Water in the Denver Metropolitan Area. Denver Board of Water Commissioners. Michigan Department of Environmental Quality. 1999. Oakland County Water Use/Population Study, 1991, Highland Township Water Use Data, 1993, and Jackson County Sanitary Flow Comparison. Missouri Department of Natural Resources Energy Center. August 2000. Residential Energy Efficiency. <http://www.dnr.state.mo.us/de/residential/waterusage.htm>. Schrauben, Daniel and David Beschke. 1999. Basis of Design Flow Adjustment, Wastewater System Mill Valley Condominium Subdivision. Equinox Inc. June 1999. Polk County, Department of Water Conservation. August 2000. Water Conservation For Kids. <http://www.co.p2lk.ia.us/departments/conserv/kids.asp.html> U of Rhode Island. August 2000. Water Conservation In and Around the Home. <http://hermes.ecn.purdue.edu/cgi/convertwq?6425>. University of Maryland. August 2000. Water Conservation In the Home. <http://hermes.ecn.purdue.edu/cgi/convertwq?5321>. Unites States Geological Survey. August, 2000. Water Resources Outreach Program Page. <http://water.usga.gov/outreach poster3/grade school/Page7.html>. Water Usage and Your Onsite Sewage Treatment System. Individual Sewage Treatment System (ISTS), Scott County, MN. July 2000 <http://www.co.scott.mn.us/EH/ISTS/septic.htm>. University of Minnesota. August 2000. Water Use and Conservation. <http://www.extension.umn.edu/distribution/y. uthdevelopment/components/0328-05.html>. Kennewick Public Works Department. July, 2000. 32 Tips on Water Conservation <http://www.ci.kennewick.wa.us/pw/watercom.htm>.