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NCG550598_Application (ATC)_20230815
Engineers and Soil Scientists Agri-Waste Technology,Inc. 501 N Salem Street, Suite 203,Apex,NC 27502 agriwaste.com I 919.859.0669 August 15, 2023 Mr. Charles Weaver NPDES Permitting Program Division of Water Quality ``,,��tiu�tNati/4 4/1 1617 Mail Service Center ������1�1 CA1.... Raleigh,North Carolina 27699-1617 ��`411 •bkESSrOy:yy''� c : SEAL 024562 12G-64 RE: Application for Discharge System-Flores Residence %`2i•••• GIh1E•E�•'q`�4�`�� 6919 Innesbrook Way, Bahama,NC 27503 '���QOpG� Dry`,``��� Permit NCG550598 Dear Mr. Charles Weaver, lbl2r-.z3 Enclosed please find information supporting an application for a discharge system for a 3- Bedroom Single Family Residence (SFR) located in Durham County, North Carolina. This is a request for modification to an existing permit. The proposed system will incorporate a pump chamber with UV treatment into an existing sand filter discharge system that serves the residence. The site has previously been served by a common neighborhood trunk-line that has malfunctioned. The proposed system is to be sized for 3 bedrooms and has been designed to convey all wastewater from the SFR, including greywater, to the proposed septic tank. The following information is included with this letter: - Notice of Intent(NCG550000). AttachmentA - $60 check payable to North Carolina DENR. - Documentation from Durham County Department of Attachment B Public Health. Letter requesting Modified Coverage under the General Permit. Attachment C - Letter requesting Authorization to Construct. Attachment D - Soils Evaluation report by Jeff Vaughan, L.S.S. of AWT, Inc. Attachment E Correspondence from USGS. Attachment F Flow Path to"Blue Line" Water Feature. Attachment G - Information on Connecting to Regional Sewer. Attachment H Engineering Alternatives Analysis(EAA). Attachment I - N/A-Local Government Review Forms. Attachment J Plans and Specifications for the Proposed System. Attachment K The proposed discharge location is to a road-side ditch on the property that flows to an unnamed tributary to Little River. The flow path has been included as part of this package in Attachment G. The discharge system will utilize the following components: Existing Septic Tank New Orenco Effluent Filter Existing Sand Filter UV Disinfection Discharge Point with Rip-Rap Flow Path to "Blue Line"Water Feature The proposed discharge location is to a road-side ditch on the property that flows to an unnamed tributary to Little River. A map showing the path from the discharge point to the first "blue-line" stream, as shown on the USGS Stream Stats NC Map, can be seen in Attachment G. The latitudinal and longitudinal information presented below is the approximate location of the confluence of the unnamed tributary with Little River. Receiving Stream Little River(Little River Reservoir) Stream Index 27-2-21-(3.5) Stream Class WS-II; HQW,NSW, CA Latitude 36.133° Longitude -78.871° Notice of Intent As part of the Notice of Intent, the feasibility of alternatives to discharging must be addressed. The following alternatives are to be evaluated: Connection to a regional or municipal sewer collection system. Letter from the local or county health department describing the suitability or non-suitability of the site for all types of wastewater ground adsorption and innovative non-discharge systems, as well as documenting the repair potential of the failed system. Investigate land application such as spray irrigation or drip irrigation. Connection to a Regional or Municipal Sewer Collection System Connection to a sewer collection system is not feasible for this facility. The City of Durham Public Works Department indicated that the property is not within the city's coverage area. The closest current-city maintained sewer is approximately 1.6 miles, or 8,448 linear ft, from the property. There are no immediate plans for sewer extension to the area at this time. (Attachment H). At an estimate of $150/ft, the sewer extension would cost over$1,267,200. Letter from the local or county health department describing the suitability or non- suitability of the site for all types of wastewater ground adsorption and innovative non-discharge systems. Document the repair potential of the failed system. A county denial is not required as this is a modification for an existing certificate of coverage. Jane Bernard and Charles Weaver were contacted 7, 2023 regarding ag February g g the site and situation. Investigate Land Application such as spray irrigation or drip irrigation. Per the soil evaluation by Jeff Vaughan, L.S.S. of Agri-Waste Technology, Inc., the site does not have sufficient space or suitable soil characteristics to accommodate a non- discharge surface spray or drip wastewater system (Attachment E). 7Q10 Flow Estimate The United States Geological Survey (USGS) was contacted to determine the 7Q10 flow estimate for the proposed wastewater discharge point. The proposed discharge point is to an unnamed tributary to Little River. The analysis from USGS indicates the 7Q10 discharge for the point in question is likely zero (Attachment F). Engineering Alternatives Analysis An Engineering Alternatives Analysis (EAA) has been completed for this site and is included as Attachment I. In my opinion, the completed EAA demonstrates that a wastewater treatment system permitted under the NCG550000 General Discharge Permit is the only feasible option for this site. We have exhausted all other options for this site as follows: a.) connection to a municipal or regional sewer collection system - Not feasible due to costs. b.) subsurface disposal - Inadequate soil for a subsurface absorption system. c.) single-family residence wastewater irrigation (drip and spray) - Inadequate soil and insufficient space for a non-discharge ground absorption system. d.) Reclaimed-water systems - Inadequate soil and not feasible due to fill soil costs for a reclaimed water system. No reasonable ability to operate as a bulk distributor of reclaimed water. e.) Any viable combination of the above - There are no viable combinations of the above due to soil and cost limitations. II Local Government Review Forms N/A — Local Government Review Forms are not required in this scenario as this is a request for modification to an existing certificate of coverage. I appreciate your time and efforts in reviewing this application. If you have any questions or comments,please feel free to contact me at 919-859-0669. Best Regards, Kevin Davidson, P.E. V.P. of Engineering Attachment List Attachment A Notice of Intent (NCG550000) Attachment B Documentation From Durham County, Department of Public Health Attachment C Letter Requesting Modified Coverage Under the General Permit Attachment D Letter Requesting Authorization to Construct Attachment E AWT Soils Evaluation Report Attachment F 1. Correspondence from USGS 2. Stream Classification Attachment G 1. Flow Path to "Blue Line" Water Feature Attachment H Information on Connection to a Regional Sewer System Attachment I Engineering Alternatives Analysis Attachment J N/A - Local Government Review Forms Attachment K Plans and Specifications for the Proposed System Attachment A Notice of Intent(NCG550000) National Pollutant Discharge Elimination System (NPDES) Division of Water Resources Application for SURFACE DISCHARGE FOR AGENCY USE ONLY Environmental Certificate of Coverage (COC) Under Date Received Quality General Permit NCG550000 Year Month Day For Single-Family Residences and Similar Discharges 100%-domestic wastewater-<1,000 gallons per day Certificate of Coverage(COC) N C G 5 5 0 5 9 8 Check# Amount Assigned to: The Division of Water Resources will not accept an application package unless all instructions are followed. Failure to submit all required items may result in the application being returned. For more information, visit the Water Quality Permitting Section's NPDES Permitting Unit website. (Press TAB to navigate form) 1. Regional Office Contact: Please contact your DWR Regional Office before submitting this application. If you have not met with your appropriate DWR Regional Office Representative, the application will be returned. Please list the DWR Regional Office representative(s)with whom you have discussed this project: Name(s): Jane Bernard Date: 2/7/2023 2. Owner's Contact Information: Applicant Type: ® Individual ❑ Corporation ❑ Partnership Owner Name and Title: Luis Alberto Flores Vazquez Street Address: 6919 Innesbrook Way City: Bahama State: NC Zip: 27503 Telephone#(H): Telephone#(W): - Cell/Mobile#: 919-225-7840 Email: lfloresv93@hotmail.com 3. Location of Facility Producing the Discharge: Please list the address of the facility. If facility is not yet constructed,give street address or lot number. Street Address: 6919 Innesbrook Way City: Bahama State: NC Zip: 27503 County: Durham Telephone#: Cell/Mobile#: 919-225-7840 Website: - Page 1 of 7 Revised:A. Orlando NPDES 21Sept2017 Application for Certificate of Coverage (COC) and/or Authorization to Construct (ATC) under General-Permit NCG550000 4. Site-Location Narrative: Please describe how to get to the facility from the nearest town,major highway or identifiable roadway intersection(use street names, state road numbers,and/or distances and directions). From Raleigh,take Wade Ave to Wade Avenue(4.7 mi).Continue on Wade Avenue.Take 1-40 W and I- 885 to US-501 N/N Duke St in Durham.Take exit 176 from I-85 S/US-15 S/US-70 W. Follow US-501 N for 7.8 miles.Turn right onto Orange Factory Rd and turn right onto Innesbrook Way.The property will be on the right. 5. Describe the nature of the project. ["New"means has not yet been physically constructed,"existing" means system already physically exists. Please see 15A NCAC 02H .0103(11) for further clarification]. n Installation of a New Wastewater Treatment System(If yes, skip to Number 9.) U Expansion of an Existing Wastewater Treatment System(for example,adding bedrooms) (If yes, skip to Number 9.) ® Replacement of an Existing Wastewater Treatment System(If yes, go to Number 6.) 6. Describe the Existing Wastewater Treatment System: I Conventional Septic Tank/Leach-field—Discharge to Sub-Surface Soils. If previously permitted, please attach a copy of the permit or enter the permit number: If you are not aware of an existing permit,check here. El Sandfilter—Discharge to Surface Waters [or other,as defined 15A NCAC 02H.0103(1111. If previously permitted,please attach a copy of the permit or enter the permit number. If you are not aware of an existing permit,check here. El Permit NCG550598 and Durham County Septic Tank Permit dated July 15, 1969(permit number is cut off of Durham County's scan of the permit). ❑ Filter Media System(Pod System)—Discharge to Surface Waters [or other,as defined 15A NCAC 02H.0103(1111. If previously permitted,please attach a copy of the permit or the permit number. If you are not aware of an existing permit,check here. El ❑ Other ❑ Check here if submitting proposal for a new system or if no treatment system exists. 7. Check all EXISTING wastewater treatment components: ® Septic tank El Dosing tank El UV disinfection ® Primary sand filter ❑ Secondary sand filter El Recirculating sand filter(s) El Chlorination Dechlorination ® Other components: pump chamber to common trunk-line El Self-Contained POD system [describe] El Leach Field El Post Aeration (specify type) Page 2 of 7 Revised:A. Orlando NPDES 21Sept2017 Application for Certificate of Coverage (COC) and/or Authorization to Construct (ATC) under General-Permit NCG550000 8. Provide Details of Single-Family Residence(SFR)or Similar Facility: a) Type of facility: ®Residential El Commercial ❑Other: b) Amount of wastewater discharged: - Residential:Number of bedrooms 3 x 120 gallons per bedroom=360 gallons per day(flow) - Commercial: How many employees?(25 gpd/person)N/A c) Is your existing treatment system failing? Yes ® No El d) Has the Health Department formally condemned your existing system "unsuitable for repair?" Yes El No If yes,please name the Health Department[local,county,or state], and provide the site-inspection date [attach Health Department's judgement letter, if available]: N/A X If previously permitted [local,county,or state],provide permit number and date issued [attach copy, if available]: Durham County Health Department—Septic Tank Permit(number cut off at top)-07/15/1969(Attachment B of application package)and Permit NCG550598 9. Check all PROPOSED new system components ❑ Septic tank El Dosing tank ® UV disinfection: ❑ Primary sand filter El Secondary sand filter ❑ Recirculating sand filter(s) ❑Chlorination El Dechlorination ® Other components: pump chamber to individual discharge line El Self-Contained POD system ®Post Aeration (specify type) rip rap at discharge ® Proposed Modifications to Existing Treatment System -Explain in detail the nature of the modification.Attach all site maps,plans and specifications, signed by an NC Certified Engineer. If prepared by others,plans must conform to 15A NCAC 02H .0139. Please see Wastewater Design Plans by Agri-Waste Technology,Inc. El Proposed New Treatment System for Surface Discharge(not constructed)-Attach all site maps, plans and specifications,to be signed by an NC Certified Engineer. If prepared by others,plans must conform to 15A NCAC 02H .0139. Page 3 of 7 Revised:A. Orlando NPDES 21Sept2017 Application for Certificate of Coverage (COC) and/or Authorization to Construct(ATC) under General-Permit NCG550000 Expanding Flow?-Do you propose to increase permitted or existing flow? ❑Yes ® No Provide details of the Proposed NEW Discharge [Flow and Source Water]: El Check if same as 6. Existing: Amount of wastewater currently discharged: Number of bedrooms 3 x 120 gallons per bedroom= 360 gallons per day to be permitted(design flow) Expanding: Amount of wastewater proposed to be discharged:Number of bedrooms x 120 gallons per bedroom= gallons per day to be permitted(design flow) 10. Evaluate Alternatives to Discharge to Waters of the State.Please address the feasibility of discharge alternatives as instructed in the NCDEQ Engineering Alternatives Analysis(EAA) Guidance Document found here. (Note:Evaluation for endangered species is not required.) a) Connection to an Existing Wastewater Treatment System -Provide the distance to the nearest connection, such as a regional or municipal sewer system, and the estimated cost per foot to connect including fees. —8,448 ft.with a cost of $150/foot($1,267,200)+additional costs for design,permitting,and tap fees b) Land Application—Assess the land application disposal alternatives such as spray irrigation,drip irrigation, individual/community onsite subsurface systems, and/or innovative ground-absorption. Questions to consider: (1) Are on-site soils suitable for land application? Yes ❑ No (2) Is there sufficient area on-site? Yes El No c) Wastewater Reuse—Evaluate reusing all or a portion of the wastewater generated, such as for golf course irrigation,crop irrigation(e.g.,hardwood or pine plantation, grasses),athletic field irrigation, landscape uses,and/or commercial/industrial uses. Not feasible d) On-Site Soil Evaluation—Submit an evaluation of the soils on-site, documented by a certified report from a NC Professional Soil Scientist,or by your local or county health department report(if available).Not sufficient suitable soil or space,evaluation by LSS(07/06/2023) e) Cost of Alternatives—Provide an estimation of the cost of each discharge alternative or combination of alternatives.Provided. 11. Provide Regional Information: Please provide the following information. If you need assistance in obtaining this information,please contact your local DEQ regional office. a) Stream Classification-Verify the stream classification for the nearest downgradient named waterbody. The NC Surface Water Classification map can be found by clicking here. Little River: WS-II;HOW,NSW b) Is it a High-Quality Water?If so,check if it is by definition or by designation?In order to check this, ask the Planning Unit.YES Page 4 of 7 Revised:A. Orlando NPDES 21Sept2017 Application for Certificate of Coverage(COC) and/or Authorization to Construct (ATC) under General-Permit NCG550000 c) Man-Provide a map locating the nearest downstream waters-of-the-State(i.e.where the effluent reaches an unnamed tributary,creek,stream,river,or lake via any surface-water conveyance). Map included in package detailing flow path to Little River d) Site Evaluation-Contact DEQ's local Regional Office for a site evaluation to confirm the proposed discharge flow path to the nearest waters-of-the-State. The wastewater/stream confluence and stream class must be verified in the field by DEQ's Regional Staff. Please list the Regional Office staff member you contacted for the inspection. Jane Bernard e) Flow Path-Display graphically the flow path of the discharge to the nearest surface Waters of the State. Document any potential hydrologic trespass or right-of-way infringement on any neighboring property(i.e. note all properties encountered prior to reaching waters-of-the-State). Discharges directly to road-side ditch on property owned by the client.The ditch flows to an unnamed tributary to Little River. f) 7Q10/3002 Estimate-Contact USGS J.Curtis Weaver(919-571-4043)to provide the estimated 7Q10 and 30Q2 stream-flow estimates for the first downstream point-of-contact with waters-of- the-State. 7Q10: Zero Flow 30Q2: Zero Flow 12. Certificates of Coverage/Notices of Intent to Discharge/Authorizations to Construct - Check ALL of the following information has been provided. Incomplete Applications will be returned. Ej An original letter[two(2)copies]requesting coverage under NCG550000. ® This application [two(2)copies]. Your signature on this application,certifies that you are legally responsible for the proposed treatment system (see page 6 of 6)for the COC/NOI/ATC. ® A check or money order for$60.00 permit fee made payable to NCDEQ. 13. Additional Application Requirements a) Narrative Description of the treatment system. This narrative should present treatment components in order of flow—influent to outfall, including anti-erosion structures and sample-port location(s). b) Final Plans and Specifications for a wastewater treatment system shall be signed by a North Carolina-registered Professional Engineer,or if prepared by others,must conform to 15A NCAC 02H .0139. All documents are to be stamped "Final Design-Not Released for Construction." Submittal shall include a site map showing the proposed outfall and the effluent proposed path to surface waters-of-the-State.(see Item 1 for location verification by DWR Regional Office staff) c) Submittals by a Consulting Engineer or Engineering Firm shall include: 1. A copy of your written authorization to represent,signed by the legal permit Applicant; and 2. Upon completion of proposed work,a signed copy of DWRs Engineer's Certification form attesting that the project was completed in accord with the DWR approved COC/ATC, as issued. ******************************************************************************* CERTIFICATION Page 5 of 7 Revised:A. Orlando NPDES 21 Sept2017 Application for Certificate of Coverage (COC) and/or Authorization to Construct (ATC) under General-Permit NCG550000 ******************************************************************************* CERTIFICATION I certify that I am familiar with the information contained in this application and that to the best of my knowledge and belief such information is true,complete, and accurate. Printed Name of Person Signing: Luis Alberto Flores Vazquez Title: Owner (Please .% ._;__� AC 02H .0106(�for definition of authorized signing officials) o „, oalrAmiliiiiill" DZA ' 1 Date Signed) i Page 6 of 7 Revised:A. Orlando NPDES 21Sept2017 Application for Certificate of Coverage(COC) and/or Authorization to Construct(ATC) under General-Permit NCG550000 NOTE: Treatment System Maintenance is Required-Upon receiving a Certificate of Coverage/Authorization to Construct(COC/ATC),the Division recommends that the Permittee solicit manufacturer-certified training,or solicit a qualified contractor or service to regularly inspect and maintain this treatment system.The Permittee is responsible under this COC/ATC to maintain all components of the approved treatment system,designed to meet Surface Water Quality Standards [see attached Operation and Maintenance Agreement]. Compliance duties include: • paying your annual fee [due on the anniversary of COC/ATC effective date], • following the manufacturer's guidelines, • conducting and documenting inspections, in compliance with General Permit NCG550000, • establishing sources for OEM spare parts and supplies, • taking discharge samples for analysis,and logging the results, • making necessary repairs,documenting said maintenance in logs, and • keeping logs onsite for the life of the permit,available for DWR inspection. North Carolina General Statute 6 143-215.6B provides that: Any person who knowingly makes any false statement representation,or certification in any application,record, report,plan,or other document filed or required to be maintained under this Article or a rule implementing this Article; or who knowingly makes a false statement of a material fact in a rulemaking proceeding or contested case under this Article; or who falsifies, tampers with, or knowingly renders inaccurate any recording or monitoring device or method required to be operated or maintained under this Article or rules of the Commission implementing this Article,shall be guilty of a Class 2 misdemeanor which may include a fine not to exceed ten thousand dollars($10,000). 18 U.S.C. Section 1001 provides a punishment by a fine or imprisonment not more than 5 years,or both,for a similar offense. Application must be accompanied by a check or money order for$60.00 made payable to: NCDEQ Mail this application and one copy of the entire package (with check) to: NCDEQ/DWR/NPDES Attention: John Hennessy, Supervisor Compliance and Expedited Permitting Unit 1617 Mail Service Center Raleigh,North Carolina 27699-1617 Attn: John Hennessy Note: Submission of this document insures DWR's consideration, but does not guarantee issuance of a Certificate of Coverage/Authorization to Construct. Page 7 of 7 Revised:A. Orlando NPDES 21Sept2017 Attachment B Documentation From Durham County Department of Public Health �,�;:STA7F .dT'r d 1 .P�y, NC DEPARTMENT OF ENVIRONMENTAL QUALITY 11 i' r w�,a aw n`. a n 7 DIVISION OF WATER RESOURCES \tu WATER QUALITY PERMITTING SECTION �aawvd NPDES PERMITTING NORTH CARO. Environmental Quality PERMIT NAME/OWNERSHIP CHANGE FORM I. CURRENT PERMIT INFORMATION: Permit Number: NCOO /_, / / or NCG51/r/ALL/J, Ut 1. Facility Name: LI 1 1 1 I I &S 6,CCv\ U3o.N II. NEW OWNER/NAME INFORMATION: 1. This request for a name change is a result of: a. Change in ownership of property/company b. Name change only c. Other(please explain): 2. New wner' name(nanie to be put on permit)• WI/di( ilki-2k l Al t" Q;,.Cr-1.1, txyr(s vl1\ 3. New owner's or signing official's name and title: L. .)E S 4 '} i'C'f� (Person legally responsible for permit) (title) 4. Mailing address: ( C) I C) IV-YWCA kcc C Y\ •-)(;`,/ City: ?. t"ahC,..W (\ State: , Zip Code: ? 1 S L. Phone: (( L 1 ) L Z: ' 1 (ei/0 E-mail address: \ "it;\e"t. (1-1f ,"\N A. 'y'C\\\ . (-0 yr III. FACILITY AND DISCHARGE INFORMATION 1. Will the waste stream for the facility remain the same as under the previous owner? Yes 0 No ❑ 2. Will the treatment system and discharge location remain the same? Yes 0 No Ea "No Responses" If either or both of these questions are answered"No"then more information will be needed to review the request. Please attach documentation to describe and explain the changes to the facility activities, waste stream, treatment process or outfall location. The Division may not be able to process the Permit Name/Ownership Change request and may require that the new owner file a new permit application. D_ENorth Carolina Department of Environmental Quality I Division of Water Quality Q��% 512 North Salisbury Street 11617 Mail Service Center I Raleigh,North Carolina 27699-1617 919.707.9000 i NPDES Name and Ownership Change Page 2 of 2 THIS APPLICATION PACKAGE WILL NOT BE ACCEPTED BY THE DIVISION UNLESS ALL OF THE APPLICABLE ITEMS LISTED BELOW ARE INCLUDED WITH THE SUBMITTAL. REQUIRED ITEMS: 1. This completed application form 2. Legal documentation of the transfer of ownership (such as a property deed, articles of incorporation, or sales agreement) 3. Information to document facility, waste stream, treatment system or outfall changes as noted in item III above (if appropriate) Applicant's Certification: I, L_k;C'C:, a V C C'r , attest that this application for a name/ownership change has been reviewed and is accurate and complete to the best of my knowledge. I understand that if all required parts of this application are not completed and that if all required supporting information and attachments are not included, this application package will be returned as incomplete. I understand that Permit Name/Ownership Change can only take place through action taken by the Division of Water Resources and that no actions on my part or the part of my company result in the automatic transfer of permit coverage. Signature: Date: \ — THE COMPLETED APPLICATION PACKAGE, INCLUDING ALL SUPPORTING INFORMATION & MATERIALS, SHOULD BE SENT TO THE FOLLOWING ADDDRESS: NC DEQ/ DWR/ NPDES 1617 Mail Service Center Raleigh, North Carolina 27699-1617 Version 07/2021 V S./ •*V'V*WV — I \AM L. SO—TV I Ia S. . V. A. For Registration Sharon A Davis Register of Deeds Durham County. NC Electronically Recorded 2021 Jul 27 04:38 PM Book: 9409 Page: 548 NC Rev Stamp S 496 00 Fee: S 26.00 Instrument Number. 2021037932 DEED Excise Tax $496.00 NORTH CAROLINA GENERAL WARRANTY DEED Parcel Identifier No. 187953 Prepared by: GOLD LAW, P.A. 309 W Millbrook Road, Suite#171 Raleigh, NC 27609 Return to Grantee Brief description for the Index Lots 7 and 8 of the Coy Ellis Property Property address Is known as:6919 Innesbrook Way,Bahama, NC 27603 THIS DEED made thi4day of , 2021 by and between GRANTOR GRANTEE Lawrence J. Ratner, an unmarried Sunlight Realty of North Carolina, LLC Individual Mailing Address: 227 Barclay Road 715 Rippling Stream Road Durham, NC 27713 Durham, NC 27704 The designation Grantor and Grantee as used herein shall include said parties, their heirs, successors,and assigns. and shall include singular, plural, masculine, feminine or neuter as required by context WITNESSETH, that the Grantor, for a valuable consideration paid by the Grantee, the receipt of which is hereby acknowledged, has and by these presents does grant, bargain, sell and convey unto the Grantee in fee simple, all that certain lot or parcel of land situated in DURHAM County, North Carolina and more particularly described as follows: Being all of Lots 7 and 8 of the Coy Ellis Property, as per plat and survey thereof now on file in the Office of the Register of Deeds of Durham County in Plat Book 31, Page 58, to which plat reference is hereby made for a more particular description of the property conveyed. Property address Is known as:6919 Innesbrook Way, Bahama,NC 27503 THE PROPERTY WAS THE PRIMARY RESIDENCE OF THE GRANTOR. Submitted electronically by "Gold Law PA" in compliance with North Carolina statutes governing recordable documents and the terms of the submitter agreement with the Durham county Register of Deeds. V V'.d TVJ - I-CUU VT,/ OF O .G. if. MI L TO HAVE AND TO HOLD the aforesaid lot or parcel of land and all privileges and appurtenances thereto belonging to the Grantee in fee simple. And the Grantor covenants with the Grantee, that Grantor is seized of the premises in fee simple, has the right to convey the same in fee simple, that title is marketable and free and clear of all encumbrances, and that Grantor will warrant and defend the title against the lawful claims of all persons whomsoever except for the exceptions hereinafter stated. The property hereinbefore described was acquired by Grantor(s) by instrument recorded at Book 8617, Page 992, DURHAM County Register of Deeds, North Carolina. Title to the property hereinabove described is subject to the following exceptions: Ad valorem taxes for the current year (prorated through the date of Settlement): utility easements and unviolated covenants, conditions or restrictions that do not materially affect the value of the Property. IN WITNESS WHEREOF, the Grantor has hereunto set his hand and seal. By: `__ Lawrence J Rat er STATE OF 1-C.--- COUNTY OF l , t AhI, _:\C-� Ir/-- )Libk-4-- anotary public of the State and County aforesaid, do reb,Vit y certify that Lawrence J. Ratner, personally appeared before me this day and acknowledged the due execution of the foregoing in( ,. 1s'trru�m,ent for the purpose(s) stated therein. Witness my hand and official seal, this the ,Q day , 2021. [Official$eall MOOM Martinez r. li fs'O rnKY PUELtC Wake County i Nord CarG'ina l hi!Corn.iss, n C.p r.as Jjrte'25,2024 NOTARY PUBLIC -- MCJ o mission ex it s: I am requesting permission to get off the currently shared septic discharge system on Innesbrook Way, Bahama, NC 27503. As of writing this letter, 6903 Innesbrook Way and 6015 Innesbrook Way have gotten off this shared discharge system with the same/similar system that I am requesting permission for below. I would like to get off this shared discharge system and discharge into the same street drainage ditch that the other houses are discharging into. Thank you for your consideration. For Registration Sharon A. Davis Register of Deeds Durham County, NC Electronically Recorded 2021 Jul 27 04:38 PM Book: 9409 Page: 548 NC Rev Stamp: $ 496.00 Fee: $ 26.00 Instrument Number: 2021037932 DEED Excise Tax $496.00 NORTH CAROLINA GENERAL WARRANTY DEED Parcel Identifier No. 187953 Prepared by: GOLD LAW, P.A. 309 W Millbrook Road, Suite#171 Raleigh, NC 27609 Return to: Grantee Brief description for the Index Lots 7 and 8 of the Coy Ellis Property Property address Is known as:6919 Innesbrook Way,Bahama,NC 27503 THIS DEED made thiTday of , 2021 by and between GRANTOR GRANTEE Lawrence J. Ratner, an unmarried Sunlight Realty of North Carolina, LLC individual Mailing Address: 227 Barcla Road 715 Rippling Stream Road Durham, NC 27713 Durham, NC 27704 II The designation Grantor and Grantee as used herein shall include said parties, their heirs, successors,and assigns, and shall include singular, plural, masculine, feminine or neuter as required by context. W1TNESSETH, that the Grantor, for a valuable consideration paid by the Grantee, the receipt of which is hereby acknowledged, has and by these presents does grant, bargain, sell and convey unto the Grantee in fee simple, all that certain lot or parcel of land situated in DURHAM County, North Carolina and more particularly described as follows: Being all of Lots 7 and 8 of the Coy Ellis Property, as per plat and survey thereof now on file in the Office of the Register of Deeds of Durham County in Plat Book 31, Page 58, to which plat reference is hereby made for a more particular description of the property conveyed. Property address Is known as:6919 Innesbrook Way, Bahama,NC 27503 THE PROPERTY WAS THE PRIMARY RESIDENCE OF THE GRANTOR. • • Submitted electronically by "Gold Law PA" in compliance with North Carolina statutes governing recordable documents and the terms of the submitter agreement with the Durham County Register of Deeds. ....,.,,..,T...' - I uy.. VT le . My.. r 'Al r TO HAVE AND TO HOLD the aforesaid lot or parcel of land and all privileges and appurtenances thereto belonging to the Grantee in fee simple. And the Grantor covenants with the Grantee, that Grantor is seized of the premises in fee simple, has the right to convey the same in fee simple, that title is marketable and free and clear of all encumbrances, and that Grantor will warrant and defend the title against the lawful claims of all persons whomsoever except for the exceptions hereinafter stated. The property hereinbefore described was acquired by Grantor(s) by instrument recorded at Book 8617, Page 992, DURHAM County Register of Deeds, North Carolina. Title to the property hereinabove described is subject to the following exceptions: Ad valorem taxes for the current year (prorated through the dale of Settlement); utility easements and unviolated covenants, conditions or restrictions that do not materially affect the value of the Property. IN WITNESS WHEREOF, the Grantor has hereunto set his hand and seal. By: Lawrence J Rat er STATE OF ,* COUNTY OF •i� , t r !, \ 'ti k )�, notary public of the State and County aforesaid, do h r ���eby certify that Lawrence J. Ratner, personally appeared before me this day and acknowledged the due execution of the foregoing instrumenttr � for the purpose(s) stated therein. Witness my hand and official seal, this the ,- ti t day , 2021. [Official Seal] r\ Alke!ia M Martinez NOTARY PUBLIC Wake County t--\ Noah Carolina � �- 1 ° " My Commission Expires June 25,2024 - NOTARY PUBLIC .._ Nfy o rexyrT J "f ' LIMITED LIABILITY COMPANY ANNUAL REPORT 1/6/2022 NAME OF LIMITED LIABILITY COMPANY: Sunlight Realty of North Carolina LLC Filing Office Use Only SECRETARY OF STATE ID NUMBER: 1318257 STATE OF FORMATION: NC E-Filed Annual Report 1318257 REPORT FOR THE CALENDAR YEAR: 2023 CA20 4/10/22023023 12876 11:31 SECTION A: REGISTERED AGENT'S INFORMATION Changes 1. NAME OF REGISTERED AGENT: Vazquez, Luis Alberto Flores 2.SIGNATURE OF THE NEW REGISTERED AGENT: SIGNATURE CONSTITUTES CONSENT TO THE APPOINTMENT 3. REGISTERED AGENT OFFICE STREET ADDRESS& COUNTY 4.REGISTERED AGENT OFFICE MAILING ADDRESS 715 RipplingStream Rd. 715 Ripplin g Stream Rd. Durham, NC 27704 Durham County Durham, NC 27704 SECTION B: PRINCIPAL OFFICE INFORMATION 1. DESCRIPTION OF NATURE OF BUSINESS: Real Estate 2. PRINCIPAL OFFICE PHONE NUMBER: (919) 225-7840 3. PRINCIPAL OFFICE EMAIL: Privacy Redaction 4. PRINCIPAL OFFICE STREET ADDRESS 5. PRINCIPAL OFFICE MAILING ADDRESS 715 Rippling Stream Rd. 715 Rippling Stream Rd. Durham, NC 27704 Durham, NC 27704 6. Select one of the following if applicable. (Optional see instructions) ❑ The company is a veteran-owned small business The company is a service-disabled veteran-owned small business SECTION C: COMPANY OFFICIALS(Enter additional company officials in Section E.) NAME: J. Valdemar Flores Meneses. NAME: Victoria Vazquez Sanchez NAME: LUIS ALBERTO FLORES VAZQUEZ TITLE: Member TITLE: Member TITLE: Managing Member ADDRESS: ADDRESS: ADDRESS: 106 S.Woodcrest 106 S.Woodcrest St. 6919 Innesbrook Way Durham, NC 27703 Durham, NC 27703 Bahama, NC 27503 SECTION D: CERTIFICATION OF ANNUAL REPORT. Section D must be completed in its entirety by a person/business entity. LUIS ALBERTO FLORES VAZQUEZ 4/10/2023 SIGNATURE DATE Form must be signed by a Company Official listed under Section C of This form. LUIS ALBERTO FLORES VAZQUEZ Managing Member Print or Type Name of Company Official Print or Type Title of Company Official This Annual Report has been filed electronically. MAIL TO:Secretary of State, Business Registration Division,Post Office Box 29525,Raleigh,NC 27626-0525 Dorf am County 14:a1th:_ Department • :SEPTIC TANKYPERMIT . No 1285 8 Area � (pc, q� _ -:Durham, N. C.,..... �uly...1.5., 19..6 Q..,� > . �1i,�►bpv0o� �a'.,. .. I. Owner Cotton. & Fields i- Address Location of Property- Lot 7. & $;...... '''c 1st house on right - PERMISSION is hereby granted to install a Septic Tank and Secondary Treatment system, to receive wastes from fixtures enumerated on Plumbing Permit No. 12858 in accordance with Chapter I .Art.' i''I, Sections I ,z 5,.;Durham County Sanitary Code, at the above location, consistent with existing con- p ditions, as described below: Septic Tank wide, long, deep (or �00 Gallon Tank ) Dist.-Box 2 outlets:- •0 Nitrification Field lines Ft. long inches wide, laid to proper grade and depth, using 2 only approved absorbent material: Sand Filter Trench... ' x.5O' Other .... ,.. r NOTE: installation to be made according to sketch on reverse side; DO NOT cover any part ofinstalla- don until after final inspection by Health Department: Plumbing by• V. H. Carnes Septic Tank by. Morrow -.. . 0. L. Ader, M.D. ,. M.P.H. Inspected by.�-t.-.C.... .�.. .,. Date.7�/o'� Director • Sand filter trenches are based an .. By, W. G. Parrish • - sound secretary engineering prac- tices and are widely used; however, should - Deputy Director unforeseen developments make it necessary ;"" to alter or abandon the system, this Htaltttl . n__. ..,..,.rf a«,,rnps no responsibility. , ,moiumb:....1s, 0 ,1,... , Ti,,::::_, 1 • , 4,4 , L6'4.i1/4. IN`4/ * N. IL (. .I., . , .; ,',,',:-:::::'". - . ‘''•-• 1,N%‘t‘ 'i::21 ci'.::.; • j i .I. • r _ i 1 1; N ... .._i.— - It_.: t �.`` , I 1—ii " 3 Engineers and Soil Scientists Agri-Waste Technology,Inc. 501 N Salem Street,Suite 203,Apex,NC 27502 agriwaste.com I 919.859.0669 August 15, 2023 Mr. John Hennessy NPDES Permitting Program Division of Water Quality 1617 Mail Service Center Raleigh,North Carolina 27699-1617 RE: Letter Requesting Coverage under the General Permit—Flores Residence 6919 Innesbrook Way, Bahama,NC 27303 Permit NCG550598 Dear Mr. Hennessy; Please consider this letter as a request for modified coverage under the General Permit for a Wastewater Treatment and Discharge. The proposed discharge system is for a 3- Bedroom Single Family Residence (SFR) located in Durham County, North Carolina. The proposed discharge system will incorporate a new pump chamber with UV treatment into the existing sand filter discharge system and re-route the line to discharge. The site has previously been served by a common neighborhood trunk-line that has malfunctioned. This design proposes an individual discharge line and system. The proposed system is to be sized for 3 bedrooms at 360 gallons/day. The residence is located at 6919 Innesbrook Way, Bahama,NC 27503. Thank you for your assistance in this matter. Sincerely, Kevin Davidson, P.E. V.P. of Engineering Attachment D Letter Requesting Authorization to Construct AWri Engineers and Soil Scientists Agri-Waste Technology,Inc. 501 N Salem Street,Suite 203,Apex, NC 27502 agriwaste.com I 919.859.0669 August 15,2023 Mr. John Hennessy NPDES Permitting Program Division of Water Quality 1617 Mail Service Center Raleigh,North Carolina 27699-1617 RE: Letter Requesting Authorization to Construct—Flores Residence 6919 Innesbrook Way, Bahama,NC 27503 Permit NCG550598 Dear Mr. Hennessy; Please consider this letter as a request for an Authorization to Construct a Wastewater Treatment and Discharge System. The proposed discharge system is for a 3-Bedroom Single Family Residence (SFR) located in Durham County, North Carolina. The proposed discharge system will incorporate a new pump chamber with UV treatment into the existing sand filter discharge system and re-route the line to discharge. The site has previously been served by a common neighborhood trunk-line that has malfunctioned. This design proposes an individual discharge line and system. The proposed system is to be sized for 3 bedrooms at 360 gallons/day. The residence is located at 6919 Innesbrook Way, Bahama,NC 27503. Thank you for your assistance in this matter. Sincerely, Kevin Davidson, P.E. V.P. of Engineering Attachment E AWT Soil Evaluation Report Engineers and Soil Scientists Agri-Waste Technology, Inc. r9SOILsC501 N. Salem Street, Suite 203 '•Apex, North Carolina 27502 ��t 919-859-0669 www.agriwaste.com CA.10R11k CPS July 6, 2023 Soils Evaluation Summary TO: Mr. Luis Flores (client) FROM: Jeff Vaughan,NC LSS SUBJECT: Soils Evaluation for 6919 Innesbrook Way, Bahama,NC (Durham County) Agri-Waste Technology, Inc. (AWT)was contracted to perform a soils and site evaluation for the purpose of on-site wastewater system suitability at the subject property in Bahama,NC. The evaluation was performed by Jeff Vaughan of AWT. A single-family residence with an existing malfunctioning sand filter discharge system is located on the property. The soils on the subject properties are unsuitable for conventional and alternative subsurface wastewater systems due to unavailable space and shallow depth to expansive clay and redoximorphic features. Surface application/irrigation systems do not qualify for this lot due to insufficient space based on required setbacks, slope, and depth to restrictive features limiting soil water movement. Therefore,the property does not comply with the requirements of 15A NCAC 18A Section .1900—Sewage Treatment and Disposal Systems -or- 15A NCAC 02T Section .0600—SFR Wastewater Irrigation Systems. The site is a likely candidate for a new surface water discharge system. Please contact us with any questions, concerns, or comments. Attachment F 1. Correspondence from USGS 2. Stream Classification 7Q10/30Q2 Flow Report-Flores 6919 Innesbrook Way, Bahama NC 27503 Region ID: NC Workspace ID: NC20230630153434873000 Clicked Point(Latitude,Longitude): 36.12389,-78.88963 Time: 2023-06-30 1 1:34:55-0400 9 b \ ti� \ The drainage area for the proposed discharge point is 0.05 sq.miles.Given the drainage area is less than 0.1 sq.miles AND the discharge location is not located in HA6;the USGS states that"streamflow records for extremely small basins are very limited to almost non-existent for North Carolina streams,and all low-flow characteristics(7Q10,30Q2,W7Q10,and 7Q2) for these small drainage basins are presumed to be zero flow or less than minimal flow(0.05 cfs)." 0 Collapse All Basin Characteristics Parameter Code Parameter Description Value Unit DRNAREA Area that drains to a point on a stream 0.0582 square miles LCO6IMP Percentage of impervious area determined from NLCD 2006 impervious dataset 1.05 percent PCTREG1 Percentage of drainage area located in Region 1 -Piedmont/Ridge and Valley 100 percent PCTREG2 Percentage of drainage area located in Region 2-Blue Ridge 0 percent PCTREG3 Percentage of drainage area located in Region 3-Sandhills 0 percent PCTREG4 Percentage of drainage area located in Region 4-Coastal Plains 0 percent PCTREG5 Percentage of drainage area located in Region 5-Lower Tifton Uplands 0 percent Peak-Flow Statistics Peak-Flow Statistics Parameters [Region 1 Piedmont rural under 1 sqmi 2014 5030] Parameter Code Parameter Name Value Units Min Limit Max Limit DRNAREA Drainage Area 0.0582 square miles 0.1 1 LCO6IMP Percent Impervious NLCD2006 1.05 percent 0 47.9 Peak-Flow Statistics Parameters [Peak Southeast US NC 2023 5006] Parameter Code Parameter Name Value Units Min Limit Max Limit PCTREG1 Percent Area in Region 1 100 percent 0 100 pet Mgr Code 13@feMt8FettaiiVIZegion 2 Nalue 1:1Pii ant blin Limit ylity Limit PCTREG3 Percent Area in Region 3 0 percent 0 100 PCTREG5 Percent Area in Region 5 0 percent 0 100 DRNAREA Drainage Area 0.0582 square miles 0.08 8902 PCTREG4 Percent Area in Region 4 0 percent 0 100 Peak-Flow Statistics Disclaimers [Region 1 Piedmont rural under 1 sqmi 2014 5030] One or more of the parameters is outside the suggested range.Estimates were extrapolated with unknown errors. Peak-Flow Statistics Flow Report [Region 1 Piedmont rural under 1 sqmi 2014 5030] Statistic Value Unit 50-percent AEP flood 22.4 ft"3/s 20-percent AEP flood 35.9 ft"3/s 10-percent AEP flood 45.5 ft"3/s 4-percent AEP flood 57.9 ft"3/s 2-percent AEP flood 67.4 ft"3/s 1-percent AEP flood 77 ft^3/s 0.5-percent AEP flood 86.5 ft^3/s 0.2-percent AEP flood 103 ft"3/s Peak-Flow Statistics Disclaimers [Peak Southeast US NC 2023 5006] One or more of the parameters is outside the suggested range.Estimates were extrapolated with unknown errors. Peak-Flow Statistics Flow Report [Peak Southeast US NC 2023 5006] Statistic Value Unit 50-percent AEP flood 23.8 ft"3/s 20-percent AEP flood 44.3 ft^3/s 10-percent AEP flood 61.5 ft"3/s 4-percent AEP flood 85.4 ft"3/s 2-percent AEP flood 107 ft^3/s 1-percent AEP flood 129 ft"3/s 0.5-percent AEP flood 152 ft"3/s 0.2-percent AEP flood 182 ft"3/s Peak-Row Statistics Citations Feaster,T.D.,Gotvald,A.J.,and Weaver,J.C.,2014,Methods for estimating the magnitude and frequency of floods for urban and small, rural streams in Georgia,South Carolina,and North Carolina,2011 (ver. 1.1,March 2014): U.S.Geological Survey Scientific Investigations Report 2014-5030, 104 p. (http://pubs.usgs.gov/sir/2014/5030/) Feaster,T.D., Gotvald,A.J., Musser,J.W.,Weaver,J.C, Kolb, K.R.,Veilleux,A.G.,and Wagner,D.M.2023, Magnitude and frequency of floods for rural streams in Georgia,South Carolina,and North Carolina,2017—Results: U.S. Geological Survey Scientific Investigations Report 2023-5006,75 p. (https://pubs.er.usgs.gov/publication/sir20235006) USGS Data Disclaimer:Unless otherwise stated,all data,metadata and related materials are considered to satisfy the quality standards relative to the purpose for which the data were collected.Although these data and associated metadata have been reviewed for accuracy and completeness and approved for release by the U.S.Geological Survey(USGS),no warranty expressed or implied is made regarding the display or utility of the data for other purposes,nor on all computer systems,nor shall the act of distribution constitute any such warranty. USGS Software Disclaimer:This software has been approved for release by the U.S.Geological Survey(USGS).Although the software has been subjected to rigorous review,the USGS reserves the right to update the software as needed pursuant to further analysis and review.No warranty,expressed or implied,is made by the USGS or the U.S.Government as to the functionality of the software and related material nor shall the fact of release constitute any such warranty.Furthermore,the software is released on condition that neither the USGS nor the U.S.Government shall be held liable for any damages resulting from its authorized or unauthorized use. USGS Product Names Disclaimer:Any use of trade,firm,or product names is for descriptive purposes only and does not imply endorsement by the U.S.Government. Application Version:4.16.0 StreamStats Services Version:1.2.22 NSS Services Version:2.2.1 Stream Classification ctE93 NC Surface Water Classifications Nl:Classr,a1,773 We LS to + ` x Ill ® )( )( ^"' ) — / !. v 6711 h+rmab,00•Wry 6 _, -....1,-.:7 28 4.4 o Surface Water Classifications: E1 Snelot bul<.: ?7 2 21{3.5) L s_ Stream Name: :Azle River(Little Rver Reservoir) Surface Water Classifications- Q x Description: From a point 0.1 mile upstream "'"'"'�d" 01 A 21 f1', of Durham County SR 1461 to •'+\\\ .��, u..,, aeh a,a.,u.-a..,Pcsono„ ' dam at Lisle River Reservoir \ Luc:n:ad, core,a nom o 1 m ie.roaamrat Classification WS•iI-NQW,NSVJ CA OwNm Cow,SR 1461 a don al ws naow Mswcn Date of Class.: August2 1992 ua'•,,71c=^ ewset ima I Whet does this Class.mean? View i , 0. What aonm,oass.mean> 1Nrear Ia.. Wax River Basin: Neuse_ 1e071 36.133 Deg,ee Source: NC DEQ: DWR Surface Water Classifications Map Attachment G 1. Flow Path to "Blue Line" Water Feature Flow Path to Classified Water Unnamed Tributary to Little River Unnamed Tributary Converges with Little River fr Discharge Point Stream Index: 27-2-21-(3.5) Stream Name: Little River(Little River Reservoir) Stream Classification: WS-II; HQW, NSW, CA Image Source: USGS Stream Stats NC Map Attachment H Information on Connection to a Regional Sewer System Re: 6919 INNESBROOK PWEngSery <PWEngServ@durhamnc.gov> Fri 7/7/2023 9:20 AM To:Isabel Manson <imanson@agriwaste.com> Good morning, The closest thing that I see on our map for sewer is on Vintage Rd. which is in the Treyburn Residential area to the far East of the addresses you provided. Have a great day, Amber I .+** PUBLIC WORKS CITY OF DURHAM Engineering Services Group City of Durham Dept. of Public Works 101 City Hall Plaza Durham, NC 27701 From: Isabel Manson <imanson@agriwaste.com> Sent: Friday,July 7, 2023 8:28 AM To: PWEngSery<PWEngServ@durhamnc.gov> Subject: Re: 6919 INNESBROOK Thank you for sending me this information. This is helpful. Can you please let me know where the closest sewer is located? Aver Isabel Manson Engineers and Soil Scientists Assistant Project Engineer Agri-Waste Technology, Inc. (AWT) Office 919-859-0669 I Direct 919-629-6403 Web www.agriwaste.com I Email imanson@agriwaste.com 501 N. Salem Street, Suite 203, Apex, NC 27502 4 Clickherem have O O O a review on Google.e! From: PWEngSery<PWEngServ@durhamnc.gov> Sent: Friday,June 30, 2023 10:53 AM To: Isabel Manson<imanson@agriwaste.com> Subject:6919 I N N ES B ROO K Good morning, As of right now, there is no access to city water or sewer at this address. To inquire about plans for the future, you can contact the planning dept. ' Planning@durhamnc.gov I j 6925 6922 j (3659) (36�8) 1 5 1 I 1 1 A 1 6919 * 36gg 1 (3693) 1 • odC ( • ) • I N 1 -.1 1 N 1 6915 6914 j (37,08) . (31:1) • 1 1 I 1 6910 6911 I izzul (37• 1) Have a great day, Amber .•;• PUBLIC WORKS • CITY OF DURHAM Engineering Services Group City of Durham Dept. of Public Works 101 City Hall Plaza Durham, NC 27701 "cr. ' , s...„..,, m.i. Discovery Charier © Property 111. • Orange Factory Road ^�r::rd Studios 9 Tim nisei A3mm Hardwood Floors ,ttle Rim ri4A `1,11119 FF•'Plty 4, -aiigejf.ctoh1Fi_ °i hnu e s 69191nnesbrook Way Q,0 Pritchett E mar f��oN Treyburn Country Club 441k. IArt Barefoot CPA 9 .., TREYBURN • Attachment I Engineering Alternatives Analysis AI A r • Engineers and Soil Scientists Agri-Waste Technology,Inc. 501 N Salem Street, Suite 203,Apex, NC 27502 agriwaste.com I 919.859.0669 Engineering Alternatives Analysis 6919 Innesbrook Way Bahama, NC 27503 Durham County Permit NCG550598 ,�,ttiltn i111lJfllfi .�� �..of Ess�a' •,9 '�- 024582 gG-•c9 9 i/E DGE 07o ,,prz5 Date: August 15, 2023 Design Engineer: Kevin Davidosn, P.E. Agri-Waste Technology, Inc. 501 N. Salem Street, Suite 203 Apex,NC 27502 Office: 919-859-0669 Engineering Alternatives Analysis (EAA) Guidance Document North Carolina Division of Water Resources STEP 1. Determine if the proposed discharge will be allowed Before beginning any engineering evaluation of alternatives, you must first determine if the proposed wastewater discharge will be allowed. Otherwise, time and money may be spent needlessly for an EAA preparation that will ultimately be rejected on the basis of existing water quality restrictions. There are several potential restrictions to a wastewater discharge to surface waters,including: ■ Zero flow stream restrictions [15A NCAC 2B.0206(d)(2)] apply to oxygen-consuming waste in zero-flow streams. In order to determine streamflow at the proposed discharge location, contact the U.S. Geological Survey at 919-571-4000. • Receiving stream classification restrictions [e.g., ORW, WS, SA, NSW, and HQ class waters have various discharge restrictions or require stricter treatment standards]. Stream classifications are available on the the DWR Classification and Standards/Rule Review Branch website: (http://portal.ncdenr.org/web/wq/ps/csu), while wastewater discharge restrictions for various stream classifications are presented in state regulations [15A NCAC 2B.0200]. • Basinwide Water Quality Plans. These basin-specific plans list NPDES permitting strategies that may limit wastewater discharges to particular streams within the basin due to lack of stream assimilative capacity, etc. Basin plans are available on the DWR website,or you may contact the DWR Basinwide Planning Branch (http://portal.ncdenr.org/web/wq/ps/bpu).. • Impaired waters and TMDLs. Certain waterbodies listed as impaired on the 303(d) list and/or subject to impending TMDLs may have wastewater discharge restrictions. The list of 303(d) impaired waters is located on the DWR website, or you may contact the DWR Modeling and Assessment Branch (http://portal.ncdenr.org/web/wq/ps/mtu). • Presence of Endangered Species. If endangered species are present in the proposed discharge location, there may be wastewater discharge restrictions. Endangered species information may be included in the Basinwide Water Quality Plan, or you may contact the U.S. Fish and Wildlife Service (919-856-4520),N.C. Wildlife Resources Commission (919-733-3633), or the N.C. Natural Heritage Program (919-733-7701). Municipal applicants. As a public service, the NPDES Unit will evaluate whether a proposed municipal discharge is considered allowable. The municipality needs to initiate this review by submitting a letter request for Speculative Effluent Limits to the NPDES Unit. You must obtain streamflow estimates for the proposed discharge location to ensure that the receiving stream is not subject to zero flow restrictions. Low flow data (specifically, drainage area, summer and winter 7Q10, average flow and 30Q2 flow statistics) can be obtained for a nominal fee from the U.S. Geological Survey in Raleigh at 919-571-4000. The low flow data must be submitted with the speculative limits request letter. If the proposed discharge appears to be allowable, the NPDES Unit will prepare speculative effluent limits for a maximum of 2 flows and 2 discharge locations using water quality models. The municipality can then use the speculative limits to prepare preliminary engineering design and cost estimates for the direct discharge alternative within the EAA. In limited instances where complex water quality models are necessary to develop speculative limits and determine potential water quality impacts, some municipalities have undertaken the modeling effort (with DWR review) in order to expedite this portion of the NPDES permit review process. Response: N/A Non-municipal applicant EAA Guidance Document Revision: October 2019 Page 1 of 12 Non-municipal applicants. Due to staff constraints, the NPDES Unit cannot prepare speculative limits for non-municipal applicants. Thus,it is your responsibility to make your own determination as to whether the proposed discharge might be allowed by the Division, by evaluating the water quality factors listed above. It is highly recommended that you discuss the proposed discharge with the applicable DWR Regional Office and/or NPDES Unit staff,who may be able to provide input on the likelihood of a new/expanding discharge. As a first step, you must obtain streamflow estimates for the proposed discharge location to ensure that the receiving stream is not subject to zero flow restrictions. Low flow data (specifically, drainage area, the summer and winter 7Q10, average flow and 30Q2 flow statistics) can be obtained for a nominal fee from the U.S. Geological Survey in Raleigh at 919-571-4000. The low flow data must be submitted with the EAA, and will be used by the permit writer to develop permit limits. You must also verify that the proposed action (i.e., construction of a wastewater treatment plant and its appurtenances) is consistent with local zoning and/or subdivision ordinances. You will need to request the local government(s) to complete a Local Government Review Form (Attachment A),and include the signed and notarized form with your NPDES application package. Response: The United States Geological Survey(USGS)was contacted to determine the 7Q10 and 30Q2 flow estimate for the downstream tributary of the proposed wastewater discharge point. The proposed discharge location is to a road- side ditch that leads to an unnamed tributary to Little River. The USGS analysis indicates the 7Q10 and 30Q2 flow characteristics are likely zero flow.The flow request is included in Attachment F of the package. All applicants. If you conclude that the proposed discharge will pass the "allowable discharge" criteria, then begin the EAA preparation by summarizing the following general information about the proposed project: • Provide a description of the proposed project. If the project will be constructed in phases, provide a schedule for constructing each additional phase, and provide the projected flow per phase (see STEP 2). Response: A wastewater discharge system is to be constructed for a 3-Bedroom Single Family Residence (SFR) located in Durham County, North Carolina. The proposed system will modify a failing sand filter discharge system that currently serves the residence. The proposed discharge location is to a road-side ditch on the property that leads to an unnamed tributary to Little River.The proposed treatment system will utilize the following components: Existing Septic Tank with new Orenco Effluent Filter - Existing Sand Filter Pump Chamber UV Disinfection Discharge Point with Rip-Rap Construction of the proposed system will occur in a single phase with an anticipated completion time of approximately 2 weeks after the start of construction activity. • Applicant name,mailing address,phone number,contact person Response: Applicant Information: Name: Luis Flores Mailing Address: 6919 Innesbrook Way Bahama,NC 27503 Phone Number: 919-225-7840 Contact Person: Luis Flores EAA Guidance Document Revision:October 2019 Page 2 of 12 • Facility name, address,county,phone number, contact person Response: Facility Information: Name: Flores Residence WWTS Address: 6919 Innesbrook Way Bahama,NC 27503 County: Durham Phone Number: 919-225-7840 • EAA preparer's name,mailing address,phone number,contact person Response: EAA Preparer's Information: Name: Kevin Davidson, P.E. Mailing Address: Agri-Waste Technology, Inc. 501 N. Salem Street Apex,NC 27502 Phone Number: 919-859-0669 Contact Person: Kevin Davidson, P.E. STEP 2. Provide reasonable projections for population and flow Residential Population Projections. Facilities requesting an NPDES discharge permit for new or expanding domestic wastewater discharges must document the population to be served within the service area over a 20-year planning period. The NC State Demographics unit provides population data for each county and municipality and can be accessed on the Internet at http://www.demog.state.nc.us. If 20-year population projections for specific areas are not available, a linear extrapolation of population trends from the past decade should be used. Any deviation from a linear projection method must be clearly justified. If population projections include future annexations, include a proposed annexation schedule as well as any annexation requirements that must be met. Response: Because the wastewater treatment system is designed for a single-family residence, the population to be served will be limited by the number of bedrooms at the individual residence. The existing house contains 3 bedrooms. For the 20-year planning period, the system will be designed for a 3-bedroom residence with a flow of 360 gallons per day. At 2 people per bedroom,the system will be designed to serve 6 residents. Municipal Flow Projections. Justification of flow as well as a demonstration of need shall be provided. Mere speculation is not sufficient. Flow projections should represent average anticipated flows, since permit flow limits are based on monthly averages. Peaking factors used to design various components of the wastewater collection system (e.g., collector sewers,interceptor sewers,pumping stations) should not be used in the justification of the average anticipated flow. For municipal wastewater dischargers, flow must be justified using the Clean Water Loan Program (CWLP) Guidance for Preparing Engineering Reports available on the Internet at http://portal.ncdenr.org/web/wi/cleanwater/er. Exceptions to these flow criteria may be approved on a case-by-case basis provided adequate justification is supplied. • Current Flow- Provide current flows including residential, commercial, industrial, and infiltration/inflow (I/I) based on actual flow data or water billing records. Current residential flow and current commercial flow may be based on water billing records minus a 10% consumptive loss. Current industrial flow may be based on dual metering to determine consumptive losses. • Future Residential Flow- Provide 20-year residential flows based on projected residential growth. Multiply the projected growth in residential population by 70 gallons per day per capita. • Future Commercial Flow- Provide 20-year commercial flows based on projected residential growth. Multiply the projected growth in residential population by 15 gallons per day per capita. EAA Guidance Document Revision: October 2019 Page 3 of 12 • Future Industrial Flow- Provide flow for future documented industrial flow. A nominal allowance for future unplanned industrial expansions may be considered by the Division, provided the basis is clearly justified and current land-use plans and local zoning allow for such industrial growth. Response: N/A Non-municipal applicant Non-Municipal Flow Projections. Flow may be justified in accordance with 15A NCAC 2H .0219(1) for various activities (e.g., new subdivisions, new schools, various commercial activities). For other proposed discharges (e.g., groundwater remediation, water treatment plant filter backwash, industrial facilities), the flow projections will be based on engineering design considerations and/or production projections rather than population projections. Response: Because the wastewater treatment system is designed for a single-family residence, the population to be served will be limited by the number of bedrooms at the individual residence. The existing house contains 3 bedrooms. For the 20-year planning period, the system will be designed for a 3 bedroom residence with a flow of 360 gallons per day. At 2 people per bedroom,the system will be designed to serve 6 residents. STEP 3. Evaluate technologically feasible alternatives Since a goal of the Clean Water Act is to minimize or eliminate point source discharges to surface waters, any proposal for a new or expanding wastewater discharge must include evaluation of wastewater disposal alternatives in addition to direct discharge. Particularly for dischargers of domestic wastewater, this evaluation should investigate the feasibility of the following wastewater disposal alternatives: • Connection to an existing wastewater treatment plant(public or private) • Land application alternatives, such as individual/community onsite subsurface systems, drip irrigation,spray irrigation • Wastewater reuse • Surface water discharge through the NPDES program • Combinations of the above In order for the applicant to eliminate a wastewater disposal alternative, you must either show that the alternative is technologically infeasible, or that it would be cost prohibitive to implement relative to a direct discharge alternative. Please note that for some alternatives, it might be easier to prove an alternative is not viable based on high cost rather than technological feasibility. For example,for a large municipal expansion that would require several hundred acres for a land application alternative, it might be easier to simply assume that the required acreage could be purchased and calculate the present value costs (including current market land costs) for this option, rather than evaluating whether land application is technologically infeasible due to lack of available land and/or poor soil conditions. For those alternatives identified as technologically feasible,you must develop and compare costs, based on a preliminary level design effort (see STEP 4). The Division recognizes that wastewater disposal alternatives may be limited for some non-domestic wastewater scenarios, and a full alternatives evaluation may not be warranted. If there is some question as to whether an alternative may be eliminated, contact the NPDES Unit staff. Some scenarios that might not require a full alternatives evaluation include: • Water Treatment Plant Discharges. Discharges from water treatment plants (WTPs) that utilize a membrane technology (e.g., reverse osmosis, nanofiltration) or ion exchange system tend to generate highly concentrated wastestreams. These wastestreams are not amenable to land application and do not have to be evaluated for this alternative. However, since these EAA Guidance Document Revision:October 2019 Page 4 of 12 wastestreams can also have a toxic impact on a receiving freshwater system, proposed new discharges from these WTPs to freshwaters will not be considered for an NPDES permit unless you can demonstrate that the environmental impacts would be minimal based on dilution modeling. You should investigate whether the wastewater can be piped to a stream with sufficient dilution, or whether a local WWTP might accommodate this discharge. Please note that discharges from WTPs that utilize greensand filtration or conventional technology produce a wastestream that is not saline,therefore no disposal alternatives can be automatically ruled out as infeasible for these other WTPs. Refer to the NPDES website for permitting strategies for reverse osmosis,ion exchange,greensand filtration,and conventional WTPs. • Groundwater Remediation System Discharges. You will need to evaluate whether WWTP connection, land application, infiltration galleries, in-situ groundwater remediation wells, or closed-loop groundwater remediation wells are viable disposal alternatives. While land application might be a feasible alternative in rural areas, it would not be a feasible alternative in downtown Charlotte, where there is no land available for wastewater application. In this instance, you may simply state that land application is infeasible based on land constraints within the city. You will also need to evaluate connection to an existing WWTP (in accordance with Alternative A), since there are some municipalities that have accepted this waste stream in the past. If the municipality will not accept the waste stream, the connection alternative is also considered technologically infeasible. Please note that in-situ and closed-loop groundwater remediation wells are permittable well types and further guidance is available through the Aquifer Protection Section. Aside from these exceptions,you should proceed with the alternatives evaluation in accordance with the following requirements. If you have any questions about these requirements,contact the NPDES Unit staff. Alternative A. Connection to an Existing Wastewater Treatment System. You must evaluate the feasibility of connecting to an existing wastewater treatment system served by a municipality or other entity holding a valid NPDES or Non-Discharge Permit. All connection options should include an evaluation of a gravity line and/or force main with pump station(s). 1. Existing Sewerage System: (a) Identify whether there are existing sewer lines within a five-mile radius,or consider a greater radius if cost effective for the project size. Response: Connection to a sewer collection system is not feasible for this residence. The city of Durham Public Works Department indicated that the property is not within the city's coverage area. The closest current-city maintained sewer is approximately 1.6 miles, or 8,448 linear ft, from the property and is across Little River in Treyburn. There are no immediate plans for sewer extension to the area at this time. (Attachment H). at an estimate of $150/ft,the sewer extension would cost over$1,267,200. (b) Provide a preliminary indication of flow acceptance from existing municipal or private WWTPs under consideration for connection. If a municipal or private WWTP cannot accept the wastewater, include a letter documenting such and consider this alternative technologically infeasible. Response: N/A No sewerage available (c) If an existing sewerage system will accept the wastewater, evaluate the piping/pumps/resources necessary to connect to the existing wastewater treatment plant. Attach a topographic map or a site drawing showing the physical route of this alternative. Conduct a Present Value Cost Analysis per STEP 4. Response: N/A No sewerage available EAA Guidance Document Revision: October 2019 Page 5 of 12 2. Planned Sewerage System: Determine if a regional sewerage system within a five-mile radius is projected to be available within the next five years to receive waste from the project site. If applicable, determine availability date and flow acceptance projection from appropriate authority. Response: As stated above,the property is not able to access city sewerage. Alternative B. Land Application. Land application disposal alternatives include individual/community onsite subsurface systems, drip irrigation,and spray irrigation. 1. Provide an estimate of the best case hydraulic loading rate based on County Soil Surveys or from a soil evaluation performed by a soil scientist. Include calculations showing the hydraulic loading rate and the total area of land needed for the land disposal system, including buffers. Response: Per the soil evaluation by Jeff Vaughan of Agri-Waste Technology, Inc.,the site does not have suitable soil to accommodate a ground absorption or surface drip or surface spray wastewater system due to unsuitable topography and shallow depth to expansive clay and redoximorphic features. Surface application/irrigation systems do not qualify for this lot due to insufficient space based on required setbacks, slope, and depth to restrictive features limiting soil water movement. (Appendix E of package). Regardless of the fact that a subsurface ground absorption system cannot be designed or permitted for this site, the potential size of a subsurface system has been estimated in the table below. Subsurface Dripfield Design Alternative # Bedrooms 3 Daily Flow 360 gpd = 120 gpd'#bedrooms LTAR 0.1 gpd/sqft Minimum Area Required (Nominal) 3,600 sqft Daily Flow/LTAR Estimation for Topographical Variation 1,200 sqft Estimated Area Required (Actual) 4,800 sqft Approximate Area Available 3,565 sqft The current property's land available for the sub-surface system is 3,565 sq.ft. with setbacks and existing site conditions. A schematic of this area is shown in Appendix A of the EAA. The land needed for a subsurface dripfield design is a minimum of 4,800 sq. ft., so there is not sufficient space for this type of system at the residence,and the soils are unsuitable for supporting this type of system. EAA Guidance Document Revision: October 2019 Page 6 of 12 For a surface system in this soil, the SFR loading rate group is likely restricted to a maximum annual loading of 19.5 in/year. The sizing calculation for a non-discharge surface system is summarized in the table below: Non-Discharge Surface Design Alternative # Bedrooms 3 Daily Flow 360 gpd = 120 gpd*#bedrooms Surface Loading Rate 19.5 in/year Minimum Area Required (Nominal) 10,810 sqft Approximate Area Available 0 sqft The current property's land has no available space for the system. A schematic of this area is shown in Appendix A. The land needed for a non-discharge application system is estimated at 10,810 sq. ft.. There is not sufficient space for a non-discharge surface system and the unsuitable soil conditions on the property do not allow for a non-discharge system. 2. Assess the availability of land. If insufficient land is available onsite, assume that the necessary land can be purchased and estimate the land purchase cost based on local real estate prices. Alternatively, provide documentation to demonstrate that insufficient land is available for sale in the project area (include letters from adjacent property owners indicating no interest in selling property). Response: Insufficient land is available for sale in the project area. The table below lists neighboring properties and the value of the land as listed by the Durham County GIS website. The surrounding lots contain occupied single-family residences. The values listed in the table do not reflect the value of the single-family residences. Adjoining Property Values Neighboring Property Area (ac) Vacant Price of Land ($) Parcel 187954 (North) 0.61 N 36,270 Parcel 187942 (East) 0.45 N 32,512 Parcel 187943 (East) 0.45 N 32,670 Parcel 187952 (South) 0.57 N 35,235 Parcel 187908 (West) 1.51 N 45,146 EAA Guidance Document Revision: October 2019 Page 7 of 12 3. Provide a description of the wastewater treatment system and the non-discharge application system. Include a site plan showing the proposed layout, the application area, any existing structures,proposed structures, and other uses within the site. Response: A typical subsurface drip system or a non-discharge surface spray or surface drip system with pretreatment considers the following components: -Septic Tank with Effluent Filter -Recirculation Tank -AdvanTex Treatment Pod -Pump Tank -UV Disinfection -Headworks Box -Control Panel -Disposal Field(drip or spray) Note:The proposed discharge system does not consider the pump tank,headworks box or disposal field. Site drawings of these alternative systems showing the available application area are included as Appendix A of the EAA. Due to the limitations caused by the soil characteristics and conditions, there is no ability to consider any of these systems on this property. 4. Explain the proposed reuse plan if reclaimed water will be used by a third party. Response: There is no reuse plan being considered either on-site or by a third party. The existing residential plumbing infrastructure does not allow for reuse in the existing residence. It is not feasible to consider using reclaimed water on the site or becoming a bulk distributor of reclaimed water. The table below summarizes the amount of reclaimed water that could be beneficially used on site. As shown,there may be sufficient area to utilize the daily flow of reclaimed water, however; a reclaimed system would be cost prohibitive for a single-family residence. On-site Utilization of Reclaimed Water Daily flow through system 360 gpd Available Area to Irrigate 7,992 sqft *Veg.cover on property Application Rate 0.5 in/week *Fescue Grass Acceptable Volume to Irrigate 333 ft3/week 356 gpd 5. Conduct a Present Value Cost Analysis per STEP 4. For the reclaimed water system include the potential revenue generated by selling the water. Response: A Present Value Cost Analysis is included as Appendix B of the EAA. An analysis was performed for a sub-surface drip system, a non-discharge surface application system, and a reclaimed water system. A summary of the analysis is included in STEP 4. 6. Provide all calculations, documentation, and maps as necessary to support assumptions and conclusions. Response: Calculations performed to evaluate land application alternatives are shown in Alternative B. 7. Note:The design of land application systems must meet the treatment and design requirements specified in 15A NCAC 2T .05 or 15A NCAC 18A.1900. EAA Guidance Document Revision:October 2019 Page 8 of 12 Response: The treatment systems specified above in Step B would meet the treatment standards required by these rules as they pertain to single family residences. However, because of the lack of available space due to unsuitable soil conditions,no land-based systems can be considered. 8. Note: Proposed discharges from groundwater remediation systems must evaluate the potential for an infiltration gallery treatment alternative. Response: N/A Alternative C. Wastewater Reuse. You must evaluate reusing all or a portion of the wastewater generated. Some municipalities are currently reusing wastewater within the confines of their WWTP property for irrigation, toilet flushing, backwashing, etc.,while other municipalities have established progressive reuse programs for residential irrigation. Reuse applications might include golf course irrigation, crop irrigation (e.g., hardwood or pine plantation, grasses), athletic field irrigation, landscape uses, and commercial/industrial uses. Some of these reuse applications will be evaluated under Alternative B, Land Application. The design of reclaimed water systems must meet the treatment and design requirements specified in 15A NCAC 2U. Response: All reuse applications for this project scale were evaluated under Alternative B, Step 4. Wastewater reuse was determined to be infeasible for this project. Alternative D. Direct Discharge to Surface Waters. 1. No new or expanding (additional) discharge of oxygen-consuming waste will be allowed to surface waters of North Carolina if both the summer 7Q10 and 30Q2 streamflows are estimated to be zero, in accordance with 15A NCAC 2B.0206(d). Private applicants must contact the USGS in Raleigh at 919-571-4000 and obtain (generally for a nominal fee),the receiving streamflow data (s7Q10,30Q2, annual average streamflow) at the proposed discharge location. This information must be included in the EAA,and will be used to develop permit limits. Response: With an estimated zero flow at the discharge point,the discharge will be considered on a case-by-case basis. The proposed discharge is 360 gpd. 2. All direct discharge systems of oxygen-consuming wastes should be evaluated both with tertiary filtration [BOD5= 5 mg/1, NH3-N= 1 mg/11 and without, and assuming a weekly sampling regime. Response: Tertiary filtration is not required under the general permit, as the general permit requirements (monthly average) are BOD5 = 30 mg/1 and Total Suspended Solids = 30 mg/l. However, based on actual sample results from similar treatment systems(other facilities using the same technology) in many cases,a BOD5 of 5 mg/1 and NH3-N of 1 mg/1 can be met. While weekly sampling of the treated effluent would confirm the treatment results on a regular basis, the additional cost associated with the collection and testing of the effluent would not be feasible for the homeowner. 3. Provide a description of the proposed wastewater treatment facilities, including a schematic diagram of the major components and a site plan of the treatment facility with outfall line(s). Response: Plans and schematic drawings can be found in Attachment K(of application package). 4. Provide documentation of the availability of required land and/or easement agreements. EAA Guidance Document Revision: October 2019 Page 9 of 12 Response: The proposed discharge system discharges directly to a drainage ditch on the client's property. See attachment G for the discharge system flow path. 5. Conduct a Present Value Cost Analysis per STEP 4. Response: A Present Value Cost Analysis for the discharge system is included in Appendix B. A summary of the analysis is included in STEP 4. 6. Note: All direct discharge treatment systems must comply with Reliability Requirements specified in ISA NCAC 2H.0124. Response: The system serves aprivate facilitythat is served byaprivate well and does not have elevated water storage P Y � tanks. In the event of a power outage,water will be available to the residence. There is storage available in the system to hold some waste from the house until power is restored to the system. If the power is out for an extended period,ceasing water usage in the house or pumping of the septic tank may be required. Alternative E. Combination of Alternatives. You should evaluate the possibility of a combination of wastewater alternatives that would minimize or eliminate a direct discharge alternative. For example, consider whether the facility can operate a land application system during the dry season when streamflows are at their lowest and provide less dilution, and operate an NPDES discharge system during the wet season when soils may not be as amenable to land application and the receiving stream provides its greatest dilution. Response: A non-discharge alternative is not feasible due to the soil constraints listed in Alternative B. The presence or absence of a seasonal high-water table will not relieve the other constraints. STEP 4. Evaluate economic feasibility of alternatives To provide valid cost comparisons among all technologically feasible wastewater alternatives identified in STEP 3, a 20-year Present Value of Costs Analysis (PVCA) must be performed. A preliminary design level effort is considered appropriate for comparing feasible options and their associated costs. For the PVCA cost comparison, all future expenditures are converted to a present value cost at the beginning of the 20-year planning period. A discount rate is used in the analysis and represents the time value of money(the ability of money to earn interest). Present value is also referred to as "present discounted value" or"present worth". The PVCA should include all monetary costs associated with construction,startup and annual operation and maintenance of a facility. All unit cost information must be provided, and costs must be referenced. Costs can be referenced in paragraph format by summarizing the sources utilized (e.g.,vendor quotes,realtor land quotes, past bids, Means Construction Index, etc). Vender quotes received for treatment units or other components, as well as realtor land quotes, shall be included as well. For each treatment alternative identified as technologically feasible,costs should include,but not be limited to,the following: Capital Costs • Land acquisition costs • Equipment costs • Labor costs • Installation costs • Design costs EAA Guidance Document Revision:October 2019 Page 10 of 12 Recurring Costs • Operation and maintenance costs (with replacement costs) • Laboratory costs assuming a weekly monitoring regime for discharge systems and a monthly regime for non-discharge systems • Operator and support staff costs • Residual disposal costs • Connection fees and subsequent user fees • Permit and compliance fees • Utility costs (power,water,etc.) Lost Opportunity Costs PVCA Calculation Method. The following standard formula for computing the present value must be used in all cost estimates made under this evaluation: PV= C (1 +r)` Where: PV = Present value of costs. Co = Costs incurred in the present year. Ct = Costs incurred in time t. t = Time period after the present year(The present year is t= 0) n = Ending year of the life of the facility. r = Current EPA discount rate. EPA adjusts this rate annually on October 1, and it can be accessed from the Internet at http:/www.nccgl.net/fap/cwsrf/201gui.html. If recurring costs are the same in years 1 through 20,then Ct=C and the formula reduces to: n PV= C +C (1 +r) �1 _ r(1+ r) J As an example, assuming capital costs (Co) of$2 million, annual recurring costs (C) of$40,000, and a discount rate (r) of 5.625%, the 20-year(n=20) present value of costs would equal: PV= capital costs + recurring costs X [(1+0.05625)20—1] / [0.05625(1+0.05625)20] PV= $2,000,000 + $40,000 X 11.98/0.168] PV= $2,000,000 + $471,428 PV= $2,471,428 EAA Guidance Document Revision: October 2019 Page 11 of 12 PVCA Summary Table. The EAA must include a Summary Cost Table, which summarizes present worth costs developed for all technologically feasible wastewater alternatives. The summary should include a breakdown of capital costs and recurring costs. In some situations, the Division may require the applicant to refine cost estimates for some alternatives, or possibly collect actual soil data to better characterize the land application alternative. Ultimately, the final determination on cost effectiveness is made by the Division with consideration of monetary costs as well as potential environmental impacts. Response: The following table presents the cost analysis for several types of wastewater systems. Given the information presented above,the only technologically feasible alternative is the Discharge System. The "Install Cost" includes the estimated cost to design and install the specific type of system. The"Present Value of Costs"is based on a discount factor of 2.25%. Cost Analysis for Three (3) Bedroom SFR Present Install 20 yr Total Cost Value Cost Annual Cost 20 years of Costs System Type ($) ($) ($) ($) Sub-Surface System $41,400 $24,122 $65,522 $62,512 Non-Discharge System $57,900 $21,832 $79,732 $77,018 Reclaimed System $72,800 $73,085 $145,885 $136,978 Discharge System $26,500 $18,959 $45,459 $43,096 EAA Guidance Document Revision: October 2019 Page 12 of 12 Appendix A. Site Maps For System Alternatives Analysis y y - Subsurface System Option - Non-Discharge System Option - Reclaimed Water Option UNRESTRICTED 1 tt AREA i sFR i \ \ Engine.n.M ee115d.ntl.t. . Sl eue. (outside setbacks) k 5ahpu, ...Cam.250 2 .1 19259.Oee9 \ \__ i Flores Residence Surface 6edorge Wastewater Treatment System AREA = 3,565 sqft. ug Omer time OM k.ew.a akr s NC 27563 0ie 19)t]5-1MU \ M�Aiwtam.imn --':i--,^� e919 k0,575 k way, Dream NC 1TA] - I \ Q..,Canny.NC / Yerl�tw»v A. j� /jj�/. y __ ____ ___._ FROFESSIOk4 ENGINEER SEAL 17 1 3 BR SFR ; 1 4 FOR •�♦�•�•�•�♦�•� � Y / / REVIEW ONLY ....... ..- \/ "" m•. t99E0 Not 9ornv9oN I "" • l't. \ /''....'... • • • • I • • • • 1 Relevant SetbacksShown own I 7 I ® TEE PropertyLine 1 Alternative Design: 10' Subsurface Drip / _ x Dwelling 15' / _- OR I.AL: O CREATED 23 ?:I , REVISED BY: REVISED ON: Pavement & Porch 5' N .1.,. RELEASED Rf. RELEASED ON: 0 30' 60' Well 50' DRAWING NUMBER SE-1 SFR Il _ AMRgineers nrni ' UNRESTRICTED \ 1 / A06451w1.TednoNpy.Inc. 501 N Salem Street.Son e 3 Apex,Nottn 22502 03AREA l S ; (outside setbacks) \ % _ _/; /r \ . Acres Residence \ Surface Disc26 Wmtwmter ahnent System Ta..14e.mac Wow.NC 77303 AREA = 0 sqft. Li 11,22 lW 225-7540 """' ° 0 "0 \ a+Ne.IC I3Sp7 ---L_ ------- ___,....\ Downar27 M Po a f 167263 / jYDnc _ - PROFESSIONAL ENGINEER SEAL oawca ' 3 B R SFR / al 1\ — I FOR %•Y , ; 1 ,� • I' , ..J ,� — REVIEW \• i . f "EEC ONLY / / / / \ i i I � I k / I \ ___ 1 Relevant Setbacks Shown \ \ / ,RU Alternative Design: Property Line 501 \ l Non—Discharge Systems Dwelling / 1 5' \ - DRAWN BY: CREAIEONI.BanBon.. 07/27/07/27/2023 Pavement & Porch 5' \ \ / 1 " `°ON: RELEISfD Re REIFASED 0N: We I I o — 3a 1 oOF — DRAW NUMBER \ SCALED FOR 11"X17-SHEET SE-2 L ` AWT UNRESTRICTEDt Eaw1 ee"''.115 ° "' t R9nNgste Technology inc AREA t f 501N Salem Street e203 _ Ryer.North Caro.22502 (outside setbacks) / \ aw sannete com It :♦:♦:.:.:.:.:♦:♦ / \ Flores Residence Surface Discharge .♦..♦♦♦♦. \ Wastewater Treatment System �♦�♦�.�.�.�♦�♦� NewMxmawo. / We be AREA = 7,992 sqft. \ (919)2 522502 50 (919)22Y1e10 5919 9com Prppr, InIcerrabort 5919 Inn-Oroo\Eq, BOMmo.IC 22503 r. --• OuM t IBAiI �— Marn Comity.NC ♦...♦ i�=�j �........ PROFESSIONAL ENGINEER SEAL • • • • .........., ► • f FOR :vi Y ' r. REIEW �'•'•'•'•'•'•''•'•'4 s. • j ' a� �.. . — ONLY / , i. :.•��i•�•i •. / / iiiiiiiiiiiiiiiiiiiiiii .•• Ic--------------------- Li, / I I __ 1 .. , I \ . , . .„ SHEET TRLE • m Design: to ati a v / Alternative Reclaimed Water -- - -- \ •" If DRAWN BY: CREATED Op: Relevant Setbacks Shown \ ..i . 7/27/1023 °� REVISED Oft : .: RELEASED RI: RELEASED ON: \ 0 30' 60' \ ORAWNG NU4BER Well 100' SCALED FOR 11-X1T SHEET SE-3 Appendix B. Present Value Cost Analysis For System Alternatives Analysis - Subsurface System Option - Non-Discharge System Option - Reclaimed Water Option - Surface Discharge Option Sub-Surface System Co $41,400 Estimated Cost to Design and Install System r 2.250% PV= C, + � r=i (1 + r)' PV 1$62,512 !Present Value of Costs Cost Summary Table Year Annual Fee Operations Fee Sample Cost Pumping Cost UV Replacement Cost C, Total Ct PV Increase 5%every 3 Increase 3%yearly Increase$50 every 5 Increase 3%yearly Annual Incurred Annual Total Present Value years years Costs($) Discounted Discounted of Costs($) cost(Cl Cl sts rsl 1 20 500 240 0 150 910 899 899 42,299 2 20 500 247 0 155 922 900 1,799 43,199 3 20 500 255 0 159 934 901 2,700 44,100 4 20 525 262 0 164 971 926 3,626 45,026 5 20 525 270 350 169 1,334 1,257 4,883 46,283 6 20 525 278 0 174 997 928 5,811 47,211 7 20 551 287 0 179 1,037 954 6,765 48,165 8 20 551 295 0 184 1,051 955 7,720 49,120 9 20 551 304 0 190 1,065 957 8,677 50,077 10 20 579 313 400 196 1,508 1,338 10,015 51,415 11 20 579 323 0 202 1,123 985 11,000 52,400 12 20 579 332 0 208 1,139 987 11,987 53,387 13 20 608 342 0 214 1,184 1,014 13,000 54,400 14 20 608 352 0 220 1,200 1,016 14,016 55,416 15 20 608 363 450 227 1,668 1,394 15,411 56,811 16 20 638 374 0 234 1,266 1,046 16,457 57,857 17 20 638 385 0 241 1,284 1,048 17,505 58,905 18 20 638 397 0 248 1,303 1,051 18,556 59,956 19 20 670 409 0 255 1,354 1,079 19,635 61,035 20 20 670 421 500 263 1,874 1,476 21,112 62,512 24,122 Non-Discharge System Co $57,900 Estimated Cost to Design and Install System r 2.250% C + C P V= , ,_, (1 + t-Y PV I$77,018 I Present Value of Costs Cost Summary Table Year Annual Fee Operations Fee Sample Cost Pumping Cost UV Replacement Cost Ct Total Ct PV Increase 5%every 3 Increase 3%yearly Increase$50 every 5 Increase 3%yearly Annual Incurred Annual Total Present Value years years Costs($) Discounted Discounted of Costs($) Cost(S) costs(s1 1 60 500 125 0 150 835 825 825 58,725 2 60 500 129 0 155 843 823 1,648 59,548 3 60 500 133 0 159 852 822 2,470 60,370 4 60 525 137 0 164 885 844 3,315 61,215 5 60 525 141 350 169 1,245 1,172 4,487 62,387 6 60 525 145 0 174 904 841 5,328 63,228 7 60 551 149 0 179 940 864 6,193 64,093 8 60 551 154 0 184 949 863 7,056 64,956 9 60 551 158 0 190 960 862 7,918 65,818 10 60 579 163 400 196 1,398 1,240 9,158 67,058 11 60 579 168 0 202 1,008 884 10,043 67,943 12 60 579 173 0 208 1,019 884 10,926 68,826 13 60 608 178 0 214 1,060 908 11,834 69,734 14 60 608 184 0 220 1,072 907 12,740 70,640 15 60 608 189 450 227 1,534 1,282 14,023 71,923 16 60 638 195 0 234 1,127 931 14,954 72,854 17 60 638 201 0 241 1,139 930 15,884 73,784 18 60 638 207 0 248 1,153 930 16,814 74,714 19 60 670 213 0 255 1,198 955 17,769 75,669 20 60 670 219 500 263 1,712 1,349 19,118 77,018 21,832 L Reclaimed System Co $72,800 Estimated Cost to Design and Install System r 2.250% PV= C7, -- ,=t (1 -+- rY PV I$136,978 'Present Value of Costs Cost Summary Table Year Annual Fee Operations Fee Sample Cost Pumping Cost UV Replacement Cost C, Total Ct PV Increase 5%every 3 Increase 3%yearly Increase$50 every 5 Increase 3%yearly Annual Incurred Annual Total Present Value years years Costs($) Discounted Discounted of Costs($) C'.net(St caste(St 1 810 1,500 615 0 150 3,075 3,039 3,039 75,839 2 810 1,500 633 0 155 3,098 3,025 6,063 78,863 3 810 1,500 652 0 159 3,122 3,012 9,075 81,875 4 810 1,575 672 0 164 3,221 3,071 12,146 84,946 5 810 1,575 692 350 169 3,596 3,388 15,534 88,334 6 810 1,575 713 0 174 3,272 3,046 18,580 91,380 7 810 1,654 734 0 179 3,377 3,107 21,686 94,486 8 810 1,654 756 0 184 3,405 3,095 24,781 97,581 9 810 1,654 779 0 190 3,433 3,083 27,865 100,665 10 810 1,736 802 400 196 3,945 3,501 31,366 104,166 11 810 1,736 827 0 202 3,575 3,135 34,501 107,301 12 810 1,736 851 0 208 3,605 3,125 37,625 110,425 13 810 1,823 877 0 214 3,724 3,189 40,814 113,614 14 810 1,823 903 0 220 3,757 3,179 43,993 116,793 15 810 1,823 930 450 227 4,240 3,546 47,539 120,339 16 810 1,914 958 0 234 3,916 3,236 50,775 123,575 17 610 1,914 987 0 241 3,952 3,227 54,001 126,801 18 810 1,914 1,017 0 248 3,989 3,218 57,219 130,019 19 810 2,010 1,047 0 255 4,123 3,286 60,506 133,306 20 810 2,010 1,078 500 263 4,662 3,672 64,178 136,978 73,085 co O.cf(D N-CO CO 00 N.0 CO 0 v N <D "0 CON N CO �^ O CI O 'Q 00 N V' CD(0 M 0 CO CO CO N 0) m N0) (D CO l').-CO(O Mst. 0)N-u) CO Y N 0 CO > > r r o 0)O Cl M a )O)O (O r 00 0)O M C N N N N CM CM CO o)cm l") C)CMCM07 07 CM NI- V d N U_ 0 V m'? 0_V(D r OO OO OO r 0 OO(O (.0j N 0 0o C coo a c co co co 0 V CO N cr CO CO 0 0 O ,c-co CO!O M 0 00 0)(O N 0 rn n )O M(O 0 ~ m(- -0 n N N M V (O(O(o r a0 0) O .— N N M at (O CO a m m K co 0 0 N O W 0)2 co co co co s-co 0 0)O 7 C 0 0 0 0 N O N V'M M,- (O(O r r ,- 0) )0)N(V ac Nk rnrr, nnnn �rrnn �nnnao � a` a E€ rn c w R N 0) Oo.- V 'Q M M)O 71)O OD O) co 0 CO O N 1' 0) (� ... NN0)—r NN r 0 M(Or 0)0(O CO r r r n r;n CO CO CO-00 00 0) 0) .0 0)O) 05 U Q 0 U >, t c 2 W >. EW M UU)N CD COD N N co Oo)00)O O.- N N (g)vv U) CO CD 0)N N N N N N N N N N N W m W cb H ccc co E „ H E a • o W co U d N C g >. co o 0 0(OO O O O O o 0 0 0 0(on O O O O o 'ELcosr sr Lc.) Y O •u E m z N W C m C O v-r 0 r V CO N(D 0 co M N.N N- N r N co o 0 0 ,— N N N M CMV'0 0 0 co n r co C O N o) E N co b o U 2 ,s m O W LL ) U 2 W m T W C - O O O O O O M M M(O (D CO._ ._,_(o (D �j k. O `�0 0 0 0 N N N ct V'40 CD(O CO CO CO CO M CO E• Cil + 1!. amw O = W [W` IL I \ O O O 0 O O O O 0 O 0 O O O 0 O O O 0 O 0 0 00) 7 (D(O(O (D(O (D CO(O CO CO 0 CO (O CD CD CO CO(O(O(D E (0 0 + 0ri c 0 NM N I Q rn V — 0 II A i0W .—NM V )O(On CO 0) O� NM V (O (O raDOO L } N 0) N U a Attachment J N/A - Local Government Review Forms Flores Property - 6919 Innesbrook Way, Bahama, NC 27503 Attachment A. Local Government Review Form Leneral Statute Overview: North Carolina General Statute 143-215.1 (c)(6) allows input from local governments in the issuance of NPDES Permits for non-municipal domestic wastewater treatment facilities. Specifically, the Environmental Management Commission(EMC)may not act on an application for a new non-municipal domestic wastewater discharge facility until it has received a written statement from each city and county government having jurisdiction over any part of the lands on which the proposed facility and its appurtenances are to be located. The written statement shall document whether the city or county has a zoning or subdivision ordinance in effect and (if such an ordinance is in effect) whether the proposed facility is consistent with the ordinance. The EMC shall not approve a permit application for any facility which a city or county has determined to be inconsistent with zoning or subdivision ordinances unless the approval of such application is determined to have statewide significance and is in the best interest of the State. Instructions to the Applicant Prior to submitting an application for a NPDES Permit for a proposed facility, the applicant shall request that both the nearby city and county government complete this form. The applicant must: • Submit a copy of the permit application(with a written request for this form to be completed) to the clerk of the city and the county by certified mail,return receipt requested. • If either(or both) local government(s) fail(s) to mail the completed form,as evidenced by the postmark on the certified mail card(s),within 15 days after receiving and signing for the certified mail,the applicant may submit the application to the NPDES Unit. • As evidence to the Commission that the local government(s) failed to respond within 15 days,the applicant shall submit a copy of the certified mail card along with a notarized letter stating that the local government(s)failed to respond within the 15-day period. Instructions to the Local Government The nearby city and/or county government which may have or has jurisdiction over any part of the land on which the proposed facility or its appurtenances are to be located is required to complete and return this form to the applicant within 15 days of receipt. The form must be signed and notarized. Name of local government (City/County) Does the city/county have jurisdiction over any part of the land on which the proposed facility and its appurtenances are to be located? Yes [ ] No[ ] If no,please sign this form,have it notarized,and return it to the applicant. Does the city/county have in effect a zoning or subdivision ordinance? Yes [ ] No[ ] If there is a zoning or subdivision ordinance in effect,is the plan for the proposed facility consistent with the ordinance? Yes [ ] No [ ] Date Signature (City Manager/County Manager) State of ,County of On this day of , ,personally appeared before me,the said name to me known and known to me to be the person described in and who executed the foregoing document and he(or she)acknowledged that he(or she)executed the same and being duly sworn by me,made oath that the statements in the foregoing document are true. My Commission expires .(Signature of Notary Public) Notary Public(Official Seal) EAA Guidance Document Revision:April 2014 Page 9 of 8 Attachment K Plans and Specifications for the Proposed Discharge System AI A/T FINAL DESIGN NOT RELEASED FOR Engineers and Soil Scientists CONSTRUCTION Agri-Waste Technology,Inc. 501 N Salem Street,Suite 203,Apex,NC 27502 agriwaste.com I 919.859.0669 6919 Innesbrook Way Bahama, NC 27503 Durham County Permit NCG550598 Plans and Specifications for Discharge System ,,���i111t it r�iJrlI,,,f� t ssr A............ �°\` o� f i SEAL = 024562 =G-•a1 ' .. .•• &`I. Date: August 15, 2023 ��off t Design Engineer: Kevin Davidson, P.E. Agri-Waste Technology, Inc. 501 N. Salem Street, Suite 203 Apex, NC 27502 Office: 919-859-0669 Direct: 919-367-6310 Email: kdavidson@agriwaste.com AW FINAL DESIGN NOT RELEASED FOR Engineers and Soil Scientists CONSTRUCTION Agri-Waste Technology,Inc. 501 N Salem Street,Suite 203,Apex,NC 27502 agriwaste.com I 919.859.0669 6919 Innesbrook Way Bahama, NC 27503 Durham County Permit NCG550598 Plans and Specifications for Discharge System •Narrative Description of Discharge System • Design Spreadsheets • Drawings of Proposed System • Tank Specification Sheets • Access Riser Adapters, Risers, Lids • Effluent Filter Specification • Pump Vault Specification • Specification for Control Panel • Specification for UV System Narrative Description of Discharge Treatment System The Discharge System that has been designed considers the following components: - Existing Septic Tank - Existing Sand Filter - Pump Chamber - UV Disinfection - Discharge Outlet - Control Panel Due to the advanced technology in this system, a Certified Operator should be contracted to maintain this system. Septic Tank The system design utilizes the existing septic tank on the property.A leak test will be performed,and 24"single piece Orenco risers will be installed on the inlet and outlet of the septic tank.An Orenco 8"Biotube effluent filter will also be installed in the outlet of the septic tank. If the existing septic tank is not used, or if it fails the leak test, the project engineer will be contacted. To facilitate the installation of the access risers,riser adapters will be cast into the tank top during construction. All wastewater from the single-family residence,including greywater,will be routed into the septic tank. Waste that exits the septic tank will flow into the existing sand filter on the property. Pump Chamber Effluent from the sand filter will drain into the inlet of the pump chamber and be treated with an Orenco UV Disinfection Unit. The treated effluent will be pumped from the pump chamber to the discharge point. A 24" Orenco riser will be installed 6"above the ground surface. UV Disinfection Disinfection for the system will be accomplished using a UV system. The UV light should operate for approximately one year prior to needing to be replaced. If the UV light burns out or loses sufficient intensity(below a set threshold)an alarm will activate and disable the system pump. An alarm light on the control panel will also illuminate. When the alarm is activated,the homeowner should reduce water use (laundry, dishes, washing)until the system is operating properly. Discharge Outlet The system discharges to a road-side ditch on the property that flows to an unnamed tributary to Little River. Riprap will be placed at the discharge location to provide aeration of the water as it is discharged,and it will also act as erosion protection. Vegetation and debris should be kept clear of the discharge location. A grate will be installed on the discharge pipe to prevent animals and rodents from entering the discharge pipe. 1 Control Panel Two individual control panels will be installed with this wastewater system. One panel will control the operation of the UV system and the other will control the operation of the discharge pump. If desired,a control panel can be connected to a land-based phone line that will notify the operator of system operation.The control panels will be mounted side by side at a minimum of 24"above grade. 2 Discharge Wastewater Treatment System - Elevation Calculations PROJECT: Flores Residence Location: 6919 Innesbrook Way, Bahama, NC 27503 County: Durham Elevation Determination Sheet UV Disinfection Vault Ground Surface at UV Chamber 436.00 ft Height above GS 6.00 in Elevation at Top of Chamber 436.50 ft Pipe Slope to UV 1.0% Assumed Elev. at Sandfilter Outlet Invert Pipe Length 5.00 ft Elevation at Inlet invert 430.50 ft Cover Depth to Outlet 68.00 in Drop Across UV 2.00 in Elevation at Outlet Invert 430.33 ft Discharge Point Pipe Length 120.60 ft Elevation at Outlet Invert 433.40 ft Pipe Slope to Discharge Point -2.5°A) Float Settings HWA: +2 in above SF invert Pump Off -2 in above SF invert Pump On: -32 in above SF invert Discharge Pump Calculation PROJECT Flores Residence Location: 6919 Innesbrook Way, Bahama, NC 27503 County: Durham Friction Losses Suction Head = 0 ft. (submersible = 0) Elev. Difference (highest point from pump) = 15.00 ft. Design Pressure At Outlet= 2 ft. Supply Line - 1.5"Schedule 40 PVC from Pump to Discharge Point Pipe Diameter(ID) = 1.734 in. Flow= 16 gpm Pipe Length = 120.6 ft. Velocity= 2.17 ft/sec Est. Friction Loss per 100' = 1.15 ft/100 ft. Estimated Friction Loss = 1.38 ft. SUB-TOTAL = 18.38 ft. Friction Loss- Fittings (5%) = 0.92 ft. TOTAL = 19.30 ft. Flow for Anti-Siphon Hole Hole Diameter= 3/16 in. Hole Flowrate = 1.82 gpm Pump Efficiency= 0.7 (assumed, typical) Motor Efficiency= 0.9 (assumed for electric pumps) Flow= 17.82 gpm ?quired Horsepower= 0.14 hp TDH = 19.30 ft. Pump Selection Manufacturer: Zoeller Model: N98 T_ PUMP PERFORMANCE CURVE MODEL 98 25 6- 20 Operating 15 Point 0 4- 10 2- 5 0 10 20 30 40 50 60 70 80 GALLONS LITERS 0 80 160 240 FLOW PER MINUTE Awr P ores ' esicence S ✓ rface DIscnarce Engineers and Soil ScitMlala Fgr.Weste Tecnnob9y,In ✓ 5a1 N Salem Srea.5uiie 2a3 npe.,Neon cam4na 1]502 919-059-0fifi9 w�.a9�ase.mm Project Location: 6919 lnnesbrook Way Flores Residence Bahama, NC 27503 Surface Discharge Wastewater Treatment System Durham County Omar War taw norm Parcel # 187953 Bobo, 919 1nrcab8 Bo NC 27503 _ ((919)225-I8 40 n aberA]OrofmoY.epm Property Weep*:O 6919 I4 Noy, Bohm...MC NC 27503 Project Owner: Luis Flores �"° `°'4"` Rain 2 IaA53 6919 lnnesbrook Way / MRWdNI agNRA SUL Bahama, NC 27503 SITE (919)-225-7840 • ••;;;Imµ, Ifloresv93©hotmail.com 0. NTA = 1245e2 ; me7114 VICINITY MAP sk F Project Consultants: Kevin Davidson, P.E. �2aPo0eEDN�•s..a kdavidson©agriwaste.com Agri—Waste Technology, Inc. 501 N. Salem Street, Ste 203 nNkDES/DN Apex, NC 27502 Pre Can 00 E�0609 CONSTRUCTION 01011 (919) 859-0669 Sheet Index (919) 233- 1970 Fax Sheet 1 : Cover Sheet System Overview: Single Family Residence Sheet 2: Property Layout Three (3) Bedroom, 360 gpd Sheet 3: System Layout Design Standard — Pump Chamber Sheet 4: System Detail #1 SHEET IIRE with Single Bulb UV Disinfection Sheet 5: System Detail #2 Cover Sheet DRAWN IM: CREATED ON: 1.Ranson 07/27/2023 RENSED ay: REYSED at PM — — - l RELEASED ITU RELEASED 0N: SHEET NAME: �ee�eeeee�Et-- � Ail WW-1 a 30 ea 1 1 \ N A�IIR \ Erpine.ra arM So115cimtiata , \ \ Si SFR `i R9M1N4e OR9 nc t 901 N Salem Sun 203 Apex.NonM1 Camina 3I902 919459.69 I I wl \ 1 / I \ \ :��� { 1 /` ��IX; Flores Residence 1 1 75' NEIGHBOR a Surface Discharge I (DWELLING SETBACK n ? • Flores Treatment System I \ \ 6 / \ E919 wnwpmot Wq �/ 5' DWELLING 9e°;`r b c � \ SET CK 1 I �.,9»M1r.N� c, \ \ / \ Nmrlr MmMbn: -J liam6 ]15W Luie norm \ EX. SAN X. ST \ Nc r iwA5.3 / 1 FILTER , — — 00' WELL 1 __ —'` / I \ • SETBACK ::::::d1 � � 1 \ ,/--- Oa \I° \ = WELL I1xoii°w, IdillULVERT I �� wy s = ><CONCRETE -_ SEAL ; '� C. S \9' •K — - gin ._ _ _ ;— \ �� 5'MINIMUM �.__� I. �_~' •r FlNAE OESGN I —w . NOT RELEASED R➢R 1.."MuCRON a a.'... wp. ®m ONE tE9t9FIM I �, _ -��100' WELL O \ L � / � � / SETBACK \ 1 O I I 75' NEIGHBOR I�,"„ ,,. \ , W \ I DWELLING SETBACK I \1 , V /1 \ 1 \ WELL \ \ z \ \, \ �� SFR , z SHEEED� 1 \ Property Layout NOTE: BoundaryInformation ' \ \ \ wELL� DRAWN BY: CREAM)Ott taken from Durham County \ Rm. a„z„zD23 G S READ RV DON: BRAWN B[tt: CREA RELEASED➢N: iiiiiii DRAM NNIAIDEE�J SCALED FORA"X17"SHEET Property Layout W W-2 1 I AWT Line Legend ^,iMe"'^°so"s`i`^„•" 1 501 N.Sebm Street.Sidle 203 r,. •• \ Line Nome Size Type /rpu,North CemFna 3]5@ DL Drain Line 4.0" SCH 40 PVC 91°45&0fi59 �� vent*eoa wet.com ' �S { \ EDL Effluent Discharge Line 1.5" SCH 40 PVC ..%Igo • • •,\ Flores Residence COMPONENT LEGEND Surface Discharge UV UV Disinfection WastewaterTreatment System ST Septic Tank P Pump «e„„lemottr, CO Control EF Effluent Filter has �I CP Control Panel ®+ .Mw -_ -- SB Splice Box min NC mw EX. SAND FILTER "'Reply lotonralla -r � Connect To \ _ NOTES: NIA w� \ TO FIOUSE — — -Installer shall verify that the connection for discharge Whom CO"NC y , Existing Sand . between the Junction Box and Culvert is sound. -Installer shall verify that discharge is exiting culvert at s EAL Filter Drain Line UV J CP outlet shown. PROFESSIONAL ENGINEER 5' DWELLING �� . VrA'�o's„ SETBACK t N l9e�ciibf!y;�s d use ', -9 — = _: _ MdbBGE e� o _ - v �� LICE SETBACK - <7 I:. 111 10' PROPERN — — - I _ — CULVERT NEW PUMP CHAMBER 101 PROPERTYNOT RELEASED FOR GONSTRUMEN TR g./.... \ 75 NEIGHBOR DWELLING .,. .,< r LINE SETBACK I `(Ex. Chamber To Be �SSETBA K Abandoned) — _ — — PROPERv LWE EDL Discharge Point \ NOTE: Water Sewer Line Crossings w/ Stabilization \ / g (2' x 6' Riprop) Transition to 4" Sch4 sir MU Shall Follow Applicable Requirements PVC a Minimum of 10' nstall Grate on \ System Layout Prior to Discharge End of Line. (sewer line min. 18„ beneath water line or alternative \ • �, ,�, „��, I.uanean D7/P7y20PJ D 4' 8' accepted crossing). D 8' 18' \ �� �� - --- \ narvsa 8: RELEASED ON: 0Camponent Layout O Discharge Loca DRAWING HAMER 2 SCALED FOR 11"X17"SHEET System Layout •�tion� WW-3 114.1 NOTE: If existing septic tank 1. Boundary information based on Durhom is used, a leak test will be County GIS and recorded plat. AWIr StIOAF PRECAST SEPTIC"C MODEL:TS 1000 STB required, and 24" single piece Engineers and Soi Scientist. `vESTUS'M^E' 2. Septic Tank to have approved Orenco OR OPTIONAL PLASTIC NON TRAFFIC Orenco risers shall be Effluent Filter model FTPSO436-36. slrot rr."s`I.mTs+"ment,s.ioa F w a 09' na.o 1.e.00 1000 Gallon Septic Tank installed on inlet and outlet FAX nst,e,.mm ape..N,nn Caro.neos 0 veNVISX6VieRECher WV of septic tank. Orenco 3. Treatment system to be 15' from a+sassaees residence, 75' from neighboringrm••ea.ass,om - •g --tq effluent filter will also be 1 Le TRAFFIC required. residences, 10' from the property line, ^ ..., o.,,a,eue,,.�.,o- and 10e from au wells. forificotia ofFlores Residence 5: /Aw,_�\f fs,}� these setbacks to be performed by Stxl«e Discharge contractor, Wastewater Treatment System za my z4SOT.OF TANK TO CENTBI OF IPLET4fr il*** NOTE'If existing septic tank is E �l Ia not used, or foils leak test, 4. Contractor shall Backfill around all access areas such that storm water is shed Or.'wamw.n ,Ow«sTOI.Ensona "Me EPOS ONLY erscar.ami contact engineer. away from potential entry points. LA Fern CONCRETES14-4001,TAXICAB., .a„re. t.ya Ir...N,ok Wq REINFORCEMENT PER STANG°. 5. Invert elevations of all components to be lylny r NC pb SCALE.",s. NOTE: If existing septic tank verified in field by contractor to ensure In.oe9) 7srotmdl.mn is replaced, a Shoaf pre-cast proper operation. Proper«lei STATE TS 1000 STB-347 Non-Traffic 6. All system piping to be SCH40 PVC mlia,NC272� Offr„„,,,,.o.n' APPROVALS B ,er Septic Tank shall be installed. except where noted. Ourtarri 00 I 1sisw« mt T •B 32" OUTLET 2 7. All gravity elbows to be long radius or r C 1 ce 11 ; .r. ® = long sweeping type elbows. PROFESSIONAL ENGINEER SEAL g; i Ste- ,z,E", 8. Actual installation and placement of g pg j treatment system to be overseen by FLOWFLOW R 6• i p0000 Contractor. 9. Use Class •B• erosion control stone for v,\R µ iC Rod!., structural base for outlet stabilization ..vi:SSTp�,,,. P8• >ti structure. Use #5 or #57 stone for f a4 �e\ � �• B' sediment control. SEAL 04' 021311 1 1�Y/9 10. Discharge line must be covered to a Not to scale minimum depth of 18". Discharge pipe l ;,.&.011tt�0,"47e outlet to have grate. a4260E p'`.`N. SeptkTask(orewrvalanp 11. Flow from the receiving ditch back into the system shall be prevented. /dIa"tS aw E' u,u ocTM,i pv.Pb 12. Engineer Inspection required during system I.u.a Adaptor u.,""am,o M= installation and at final completion. 13. Contractor to seed and/or mulch Install safety Net in Each Meets 1., "'see.,'.='"'r.=�°o dean disturbed areas to coincide with existing Riser that eau not canton an ."e4,.od,..r. . 9 Class B RipRap -Lel *wino eerie.a;,a uncovered Area shall not be left with Mk N 4"SCH 40 PVC " .obslone r bee.by t. uncovered soil. Nm RELEASED FOR COls HOCDON w/Grate - : Az..v S"t"r d 14. Upon system completion, Contractor to we Imo ME MOW. Class B Rip Rap ^- ,ow...l w ut.I, f supply Engineer with documentation of Clean,Tamped Backfill oN bti 1 . installation and a signed letter indicating system was installed per approved design o- '^~"ram M.nos the door �,aa,e„ or noting any deviation from approved nears O OVO (JVU - s t, design. 1 1 m..a c.n•.a u.,es Kew.ui Bros, MIPSW6�..�.A�.��' • -` « anctree i�t-.,-aos�..i 15. Mount Control Panels a minimum of 24" I �I ��•�e )Obat-inyineo .�µ a;.,w, above grade. Power to panels to be i ♦•♦♦s i �;�-�•^�-/� O r•!Lr; ; u..t :`i,• enemy to ND..m n a m installed by licensed electrician per code. 'PPPA't ,lam : s(r\.p`-��-������.e?r v..• ••' r c000u' ,,me.ma 1 mot.eace er m.en.M„• 1-11-II-II"11-11=Irv=II-II"II'II-II-IL•/.1. I r..,1=11=11=If=II"11gragr411111=11 scree,weary 1 _"_'_t ,M Mb of tM 16. Leak test required On existing septic 11=i1=�I=p=TE=n=Tl=n=T1=1�=n=n=Tl=ll..:.._• `- -.r..: n=a=e=n=s=s=0=S=a=n=e=sfu- °fur PE'<. tank. =a=R=II=---n-n=n=e=n-uu=h r.i,e, rrr-n=l ,-=n=n=lrTi ea tongue*ea-. NF=1r _=7=v II=11=Ii. ,• OM �' �01,g!:'•.r1= f=11=11= o I er ws,a,u,t, t=T=u-a=: I tt m""e.�la.of m"M'.®'• 17. Waters of to be located on exterior of it I®ri R EI II_'•i 4 i i.4 r r"i•i i i s 4 r r.I�uI I VLE�I�I I OP* r'Bober Lint p'9 I II II /I I I i I I I.% [ II I♦ II v #57 Gravel al=n sx �I pryer residence within 50' of tanks. SST liter Fabric „ ,IcI . Q�� E r_ ", TITLE II II R it II II=II II II II ,,'-II II II R= Ih-a T x I II II I I-v=II 11 II II tl-II II II II II it err _ ,,.,,wa.n.., n u II II a=u I n II _n=n I= era F Eplace_,mom. 18. All wastewater from the SFR, including greywater, is to be conveyed to the System Detail #1 Clean,Tamped Backfill ndisturbed Earth •• ��. r..•I•ne.W,�,��MM septic tank 19. Separate circuits for pump and alarm/control panel ore requiredDRA, BY" CREATED Ott (1-120V. 20 amp; 1-120V, 15 amp). NOR:install 4 Rlna Clomp.it L Henson 07/27y2023 e•(or o,er)Finer Is Uwe - REVISED Be REVISED ON: I RELEASED Eft RELEASED Olt Not to scale Not to scale DRAWING RIMER oDischarge!prat Detail 0.Safety Net(install in!epee Tank Risers) -A L 1 (x2)One Control Panel Shown wW for Clarity 4X6 TREATED POST Enaineera arW Sail Sciennxla Control Panel AgmWaoa r«nnoaur.Inc ^24' ro round 1 MOUNT PANEL DIRECTLY sg+N sal.a,sie.l,san.2og g CONTROL Apex.Nona Cam.21502 Orenco 24"Dia. PVC Riser/Lid TO POSTS OR TO slsensmm 6'Above Ground Surface PANEL ALUMINUM PLATE mw n'grevae WM 4'x6'Support Post SINGLE C G O (GRIND OFF PROTRUDING Bury 36'min in SCREWS) Flores Residence Splice Box natural soil. (no pc CONDUIT Surface Discharge Wosleurfa Treatment System (UV Cable Through Individual 2X4 TREAT Cord Grip — Do Not Splice) — SUPPORTI WITH 4-3"DECKED-SECURE SCREWS om. I Float Stand shown outside II 4 PER POST GIs nn.raaex We 3 •111 of riser for clarity g RISER OR 1111111 :IN2 mM`sea totronL High Water Alarm +2'— CORRUGATED PIPE am Discharge Line �lg ti^a�ggx Wex• From Sand Filter ssaea,NC sT� I:►�. Pump On -2'— L Imam way.NC i • COVER CONDUIT 111 I I I ~_---GRAVEL Peron If teTav I MINIMUM 18" 'E PROFESSIONAL ENGINEER SEAL �_ Pump Off—32'— Orenco W 6—Spoon Hole TO RT UNIT l, TO HEAD WORKS Disinfection Unit — Zoeller N98 TO POWER SOURCE��� with Quick Disconnect Effluent Discharge Float levels shown relative to ALL CONDUIT Pump inlet invert(not to scale) INSTALL I I TO BE 3/4"(min) i x 36` MULTIPLE CONDUITS AS II II II c , o t Rd r� I Concrete NEEDED L DEPTH Ro¢QEs9lo;1;. Bose MINIMUM Not to scale I I SEA =P1 3' Not to scale LI L - 075°' i =`� ,r %r S tem Detell-FOR ILLUSTRATION ONLY ��Z4..YGINE�:.�...• Ya Control Panel su rt or PPo ( equivalent) '. /b12"3 UV Disinfection Vault Ground Surface at UV Chamber 436.00 ft Height above GS 6.00 in nrD DESIGN Elevation at Top of Chamber 436.50 ft NOT REL SE FOR consrnucnDN Pipe Slope to UV 1.0% " ISSUES° °�° " Assumed Elev.at Sandfilter Outlet Invert Pipe Length 5.00 ft Elevation at Inlet invert 430.50 ft Cover Depth to Outiet 68.00 in Drop Across UV 2.00 in Elevation at Outlet Invert 430.33 ft Discharge Point Pipe Length 120.60 ft SHEET ME Elevation at Outlet Invert 433.40 ft System Detail #2 Pipe Slope to Discharge Point -2.5% Float Settings HWA: +2 in above SF invert Pump Off: -2 in above SF invert DRAWN a.n D07CREATED 2/,�� Pump On: -32 in above SF invert RENSED BY: REVISED ON: RELEASED BY: RELEASED ON: gUWING NUMBER O,Elevaeon Determinatlons -5 Technical Data SheetCel PRTA ABS Tank Adapters Ore systems 800-348-9843 Applications General PRTA tank adapters are used to provide a structural,water- Orenco's PRTA tank adapters are molded plastic products and tight method of installing a 24-in.(610 mm)or a 30-in. (762 mm) therefore have excellent part-quality and consistency. PRTA access riser over a tank opening. tank adapters can be cast into a tank or fastened to the top of the tank with a bolt-down kit.The bolt-down kit consists of either six or twelve(depending on model)stainless steel con- ' A ' crete anchors and a roll of butyl tape. The O.D.of the vertical flange matches the I.D.of Orenco's ribbed risers,which provides a suitable joint to seal with MA320,ADH100,SS115,or SS140 adhesive. Standard Models PRTA24 Cast in Place Tank Adapters Top view PRTA30 One for each end of Septic Tank. 2 x PRTA24 PRTA24BDKIT(6 anchors) PRTA30BDKIT(12 anchors) Nomenclature — C PRTA B I Riser diameter 24 = 24"riser(Perma-Loc,Ultra-Rib,KOR FLO) 30 = 30"riser(Perma-Loc,Ultra-Rib) ABS riser tank adapter D Side view Materials of Construction Tank adapter ABS Concrete anchors Stainless steel anchor bolts Sealant Butyl tape Specifications Dimensions* PRTA24 PRTA30 A-Outside diameter 23.38 in.(594 mm) 29.25 in.(743 mm) B -Flange diameter 26.75 in.(679 mm) 34.25 in.(870 mm) C- Horizontal flange width 2.00 in.(51 mm) 2.50 in.(64 mm) D-Vertical flange height 3.50 in.(89 mm) 3.25 in.(83 mm) *The tank adapter has a nominal 0.25 inch(6 mml thickness. ©2009 Orenco Systems Inc. NTD-RLA-PRTA-1 Rev.1.0,©9/09 Page 1 of 1 Technical Data Sheet �- 4114.-0 Access Risers — Ultra-RibTM Orem.Systems Incorporated 800-348-9843 Applications General Orenco's Access Risers provide access to septic tank openings Orenco Ultra-Rib'Access Risers are constructed of ribbed PVC and can be cast into the tops of concrete tanks,bonded in place, pipe and are available in 12",18",21",and 24"diameters.They can or bolted down using a riser tank adaptor.They can also be used be ordered in 3-inch increments in lengths up to 13 ft for 12"and as valve enclosures. 18"diameter risers,and up to 14 ft for 21"and 24"diameter risers. Standard Models RR12XX, RU18XX, RR21XX, RR24XX RR24 XX-Adjust riser height to allow for Nomenclature minimum 6"above ground. Discharge grommet: 10=1"(25mm) 12=1-Ya"(32 mm) 20=2"(51 mm) Splice box: S =1"(25 mm)grommet installed' L =1-'/a"(32 mm)grommet installed' S1 =SB1 attached S2=SB2 attached S3=SB3 attached - • S4=SB4 attached L5=SB5 attached L6=SB6 attached SX=Predrilled hole for external splice box' XS=Explosion-proof splice box for simplex pumps' XD=Explosion-proof splice box for duplex pumps° XT=Explosion-proof splice boxes for triplex pumps' Riser height(specify in.or mm): Riser diameter: 12=12"(305 mm)5 18=18"(457 mm)5 21=21"(533 mm) 24=24"(610 mm) Routing code: U =Ultra-RibTM1:18"(457 mm) R =Ultra-Rib:12",21",24"(305,533,or 610 mm) Riser 'For Orenco SB1-SB4 splice boxes 'For Orenco SB5,SB6 splice boxes Minimum riser height 18"(457 mm) Used in Class I Division I environments 'Not intended for use over pump vaults Materials of Construction Ultra-Rib'PVC Pipe: PVC Specifications Model RR12XX RU18XX RR21XX RR24XX I.D. 11.74 in.(298 mm) 17.65 in.(448 mm) 20.50 in.(521 mm) 23.50 in.(597 mm) Wall Thickness-excluding ribs 0.10 in.(3 mm) 0.19 in.(5 mm) 0.25 in.(6 mm) 0.25 in.(6 mm) O.D.-including ribs 13.13 in.(334 mm) 19.44 in.(494 mm) 22.63 in.(575 mm) 25.63 in.(651 mm) Weight in lbs per ft(kg per m) 5 lb(7.4 kg) 11 lb(16.4 kg) 15 lb(22.3 kg) 19 lb(28.3 kg) ©2009 Lenco Systems"Inc. NTD-RLA-RR-2 j Rev.1.2,©8/09 Pagel of 1 Access Risers and Tank Adapters o 800-348-9843 Installation Instructions Access risers provide access to septic tank openings,simplifying inspection and maintenance procedures. It is important that the riser be sized correctly and installed properly(i.e.,appropriate tank adapter,attachment method,etc.)to ensure a watertight seal.Without a watertight seal,groundwater or surface water can leak into the tank, reducing the tank's perfor- mance.When setting a riser,orient the grommets in the appropriate directions before bonding to the tank. In this document,metric equivalents are omitted for nominal dimensions,such as riser and pipe diameters. If you are using pipe other than IPS standard sizes, consult your Distributor for adapters you may need. Riser Sizing The installed riser should extend about 3 in.(76 mm)above the finished ground level(approximately 2 in. [51 mm]for tank settlement and 1 in. [25 mm]to ensure drainage away from the riser). If the riser is too long,it may be cut to the appropri- ate height using a circular saw or table saw.Always cut excess length from the bottom of the riser.To ensure a good fit and watertight joint,a square cut is essential. If the riser is too short, a grade ring may be used as an extension. Selecting a Riser and Tank Adapter Installation Method To select an appropriate riser and tank adapter installation method,first determine the type of tank being used: concrete or fiberglass.Then refer to the chart below,as you follow these steps: Concrete Tanks 1. Determine desired riser diameter. 2. Determine if the riser tank adapter will be cast-in or bolted down. 3. Referring to the chart below,pick the appropriate tank adapter for your riser diameter and method of attachment. If the bolt-down method is being used,make sure the adapter you selected will cover the tank's opening. Orenco Fiberglass Tanks(contact your distributor or Orenco for other fiberglass tanks) 1. For 30-in. riser, choose the FRTA30-FRP tank adapter. 2. For 24-in. riser,no adapter is needed;24-in. riser fits tank directly. Riser diameter Method of attachment Tank adapter Maximum tank opening 24 in. Bolted down or cast into concrete tank PRTA24 24 in. round/17 in.square* *NOTE:For PRTA 24 30 in. Bolted down or cast into concrete tank PRTA30 30 in. round/21 in.square* and PRTA 30 risers, 21 or 24 in. Bolted down to concrete tank or epoxied RRFTA 24 in. round/24 in. square the minimum tank to top of non-Orenco FRP tank opening is 19 in., 30 in. Bolted down to concrete tank RRFTA30 30 in. round/30 in.square but 20in.is recom- 30 in. Glued onto Orenco FRP tank or PRTA24, FRTA30-FRP NA mended,so that the allowing it to accept 30-in. riser. Biotube Pump Vault 12 in. Bolted down to concrete tank RUBDKIT 10 in. round/7 in. square (PVU)can rest 18 in. Bolted down to concrete tank RUBDKIT 16 in. round/11 in.square on the lip of the Choosing Your Instruction Set opening. Following are five different installation instruction sets for adapters,depending on your application,adapter,and method of attachment. Refer to the chart below to determine which instruction set to use. Instructions for installing grommets in risers are also provided. Instruction set Adapter type used Page 1. Orenco FRP Tank Adapter FRTA30-FRP 3 2. Cast-In Adapters PRTA24, PRTA30 4 3. Round Bolt-Down Adapters PRTA24, PRTA30 5 4. Square Bolt-Down Adapters RRFTA,RRFTA30 6 5. No Adapters: Ultra-Rib Bolt-Down Kit None,Ultra-Rib pipe 7 Installing Grommets in Risers 8 2406 Orenco Systems°Inc. NIN-RLA-RR-1 Rev 2.7,10/06 Page 1 of 8 Installation Instructions (continued) About Adhesives ADH100 is a single-component adhesive/sealant for sealing pipe grom- _ mets and joining PVC or fiberglass risers to ABS or fiberglass PRTA- �— -� aim" style tank adapters(where the joint is in shear). Handling strength is f2 s a achieved within 12 hours,and full cure in 2 to 3 days. It comes in a t 55115 - I 10.2-oz(300-mL) cartridge tube for application with a caulking gun. ADH10 IIPS810)adhesive is a white,two-component,self-leveling methacrylate adhesive for bonding PVC,ABS,fiberglass, and concrete. ADH10 comes in pint(500-mL)and quart(1000-mL)kits, consisting of A and B components(adhesive and activator), and requires hand mix ing. If a self-leveling adhesive is NOT required or if concrete is NOT being bonded,SS115 or SS140 is preferred over ADH10. ADH845 adhesive is a tan two-component methacrylate adhesive for Clockwise from left:ADH10/IPS810)quart, SS115, bonding PVC,ABS,fiberglass, and concrete.This is our only adhesive MA320 SS140,ADH845,ADH10/IPS810/pint, and formulated to work in wet conditions or even under water, making it ideal for field repairs. Repairs on leaking riser connections are pos- sible, but any water pressure must be removed during the repair. ADH845 has the consistency of molasses, comes in 400-mL cartridges, and requires the manual dispensing gun ADH845-GUN. MA320 is a white two-component methacrylate adhesive that bonds PVC,ABS and fiberglass to themselves or each other, but does not bond to concrete. It comes in a two-part 200-gram see-through plastic pouch that must be kneaded to mix the two components,then cut open and squeezed to apply adhesive. SS140 adhesive is a gray two-component methacrylate adhesive for bonding PVC and fiberglass to themselves or each other. It does not bond to concrete. It has the consistency of toothpaste and will sag slightly in warmer temperatures.Surface roughening is recommended and provides the best bond strengths, but is not always necessary. Use SS140 above 65° F(18° C)and SS115 below 50° F(10° C).Working life of mixed adhesive is typically 20 to 30 minutes, and it usually hardens in less than 2 hours,depending on temperature and adhesive thick- ness. It comes in an 870-mL two-part cartridge and can be dispensed from pneumatic gun SS-MK or,for occasional use,manual gun SS-MK- MANUAL GUN. SS115 adhesive is a white two-component methacrylate adhesive with properties similar to those of SS140 and comes in the same two-part cartridge,but has a much shorter open time for use in cooler tempera- tures and jobs where quicker cure times are desired, or for applica- tions where a white color is desired.Working life of mixed adhesive is typically 10 to 15 minutes,and it usually hardens in less than 45 min- utes,depending on temperature and adhesive thickness. NIN-RLA-RR-2 j ©2006 Orenco Systems®Inc. Rev 2.7,10/06 Page 2 of 8 Installation Instructions (continued) Instruction Set 2: Cast-In Adapters I?" , Adapter type used: PRTA24 or PRTA30 Adhesive used: ADH100, MA320,SS115,or SS140 Bolt-down kit used: None Step 2a:Apply Adhesive Apply adhesive to the outside surface of the riser tank adapter. Hint: If you plan to backfill the same day,the use of MA320,SS115 or SS140 adhesive is recommended because of their quicker cure times. Cast-in PRTA30 tank adapter If you have multiple riser installations and do not have bulk adhesive (SS115/SS140),consider using both MA320 and ADH100.Apply just ® - enough MA320 on the outside of the tank adapter for a quick structural joint(cure time is typically less than an hour).A single package of MA320 can be used to provide a structural joint on two or three risers. Then apply ADH100 to the inside of the adapter and the riser joint,for a watertight seal. Step 2b: Place Riser • Orient the riser correctly and carefully slide it onto the adapter before the adhesive cures. Step 2c: Seal Adapter-to-Riser Joint Apply adhesive to the inside of the adapter and riser joint. Use a putty knife or similar tool to form a continuous fillet between the tank adapter and the inside of the riser. Step 2d: Cure Adhesive t I Allow adhesive to harden before backfilling. For ADH100, handling strength is typically achieved within 12 hours. For MA320, cure time is achieved within 30 minutes to 3 hours,depending on temperature. 2c Or. „ NIN-RLA-RR27 ©2006 Orenco Systems®Inc. Rev 2.7,10/06 Page 4 of 8 Installation Instructions (continued) 0 i Grommet(at 12 o'clock) Installing Grommets Splice box / Discharge Step 1: Mark the Riser / assembly To install grommets in the field,first mark the riser for location of the ` Grommet grommets. (For Perma-Loc risers,you should try to avoid ',•,-.,,,,p .4. -- (at 3 o'clock) cutting through the pipe seam—the extra thick rib—unless it is unavoidable.) Y Support pipes Biotube pump vault Step 2 Notch the Ribs Using a 4-in. (100-mm)grinder or other cutting tool,notch through the © —Sr PVC ribs to the wall of the PVC riser. Remove an area of ribbing equal to approximately 1 in.(25 mm)larger than the grommet diameter. . `'`L - Step 3: Remove the Ribs 9 Usin a hammer and chisel, break b ea the notched ribs from the riser. Use a grinder to remove any remaining rib material so that you are left with a smooth area,ensuring a watertight fit. (Hole saws with attached pocket cutters are available from Orenco;they cut away the ribs as the hole is • cut,eliminating the need to notch and break the ribs.) © i . - Step 4: Cut the Hole - Using the Grommet Hole Saw Sizing Chart below,select a hole saw ` for the grommet installation and drill out the opening. (If you are using • pipe and grommets other than U.S. nominal sizes, ascertain the correct - hole size for your grommet.) Use a deburring tool or knife to deburr the edges of the opening, being careful not to enlarge the opening. ziy. - ' Grommet Hole Saw Sizing Chart tor • - Grommet size(in.) Hole size(in.) NOTE: % t •,,i . 1/2 1 Grommet size=nominal 3/4 1-1/4 (IPS)pipe size. For more 1 1-9/16 information about grommet 4' 1-1/4 1 3/4 dimensions and actual pipe O.D. see Orenco's Grom met 1 1/2 2-1/ , Submittal(NSU-RLA-PG-1), 2 2-3/4 available from the Document Qx . 3 3-5/8 Library at www.orenco.com. lik I 4 5 '1 • Step 5: Glue in the Grommet 111, Install the grommet in the riser.Apply a bead of ADH100 adhesive to the groove of the grommet before inserting it into the riser hole.This will make the grommet more secure and will overcome any imperfec- tions in the drilled hole. ii 1 NIN-RLA-RR-31 ©2006 Orenco Systems®Inc. Rev 2.7,10/06 Page 8 of 8 Technical Data Sheet '�- 4141.* CB Fiberglass Access Lids Incorporated Orenco Systems 800-348-9843 Applications General Orenco®Fiberglass Access Lids provide a secure covering Orenco Fiberglass Access Lids are molded using fiberglass for risers, pump basins,and access ports. Lids fit Perma- reinforced polyester resin encapsulating a wood or structural LocTM, Ultra-RibTM, Kor FloTM, and Ultra-CorrTM pipe. Orenco foam core,for added durability and longevity.The finish is Fiberglass Access Lids are capable of supporting a 2500-lb green or brown and the top surface is textured to provide a (1134-kg)wheel load;however,they are not designed or nonskid surface. Gasketed lids include a polyurethane or neo- recommended for vehicular traffic. prene gasket. Lid comes with either two or four 5/6-inch stain- less steel flathead socket cap screws and a hex key wrench. Standard Models . " ' ..o. ::>: \ FL18G 46U,FL21G,FL24G,FL24-4B, FL30G, FL36G, FL48G > Nomenclature <a %'•••:••' ••x >f :<.;I FL24G-4BU i Ttin : OP Options: Bottom / Blank=green `''' ... / B =brown - W = warning label(24"and 30"only) C = custom logo ATX = AdvanTex logo(24"only) Attachment method: Blank = 2-bolt-hole lid(30"diameter only) Cutaway view 4B = 4-bolt-hole lid(24",and 36"diameter only) 4BU = 4-bolt-hole lid Ultra-Rib(18"and 24" diameter only) Fpfiii..___ t L*I F=Iii8B = 8-bolt-hole lid(48"diameter only*) Core Options: Groove I.D. 0 G = gasket Gasket V = vent CF = carbon filtert • Lid O.D. 12 = 2"insulation: 14 = 4"insulation: Lid diameter: 18",21",24",30",36",48" Fiberglass lid *48"lids come without bolt holes unless FL48G-8B is ordered and hole Materials of Construction locations are specified.For a 48"lid with no holes,to mount on a concrete riser,specify FL48G. Lid Fiberglass t For more information on this option,see the Carbon Filters Submittal Data Sheet,NSU-RLA-CF-1. Core Wood (structural foam in FL36) $Blue Styrofoam`"has an R-value of 10 per each 2-inch(5lmm)increment. Gasket Polyurethane or neoprene Note:for basin bottoms without bolt holes,spec:FL18,FL21,FL24,or FL30. Specifications Model FL18G-4BU FL21G FL24G-4BU FL24G-4B FL3OG FL36G FL48G Lid 0.D.in.(mm) 20.25(514) 22.5(572) 26.25(667) 25.5(648) 32.6(829) 39.63(1006) 53.88(1368) Groove I.D.in.(mm) 17.5(445) 20.25(514) 22.75(578) 23.25(591) 28.75(730) 35(889) 47.5(1207) Avg.thickness in.(mm) 0.75(19) 0.75(19) 0.75(19) 0.75(19) 1.0(25) 1.5(38) 1.5(38) Weight lb(kg) 7.25(3.3) 9.75(4.4) 12.5(5.7) 12.5(5.7) 21.5(9.8) 41.0(18.6) 103.0(46.7) Gasket type polyurethane polyurethane neoprene polyurethane polyurethane polyurethane polyurethane Applications Ultra-Rib Ultra-Rib Ultra-Rib Perma-Loc Perma-Loc Kor Flo Call for more Perma-Loc Kor Flo information ©2008 2nco Systems®Inc. NTD-RLA-FL-1 3L Rev.1.0,©9/08 Page 1 of 1 ..---7- 11/-r- , STF-N1S, 24 & . 0 FEATURES Install in any riser without an inner lid. Use as a security measure to keep persons, especially children, from accidental entry while systems are being serviced or any other instance where a cover is removed Available to fit 18", 24", and 30" diameter risers ` Open areas in web are large enough `""--t „, ,40100 to allow tanks to be pumped without having to remove the security net ,.b.,, .w r Installs easily in our segmented riser and others a \\ \ 147 Order part No.STF-N18 STF-N24 STF-N30 STF 524 SECURI Tv IlE I I ISO- t lwrt s CAD detail drawing available in DXF format q 00 x,..' RELATED PRODUCTS / % STF-C124 page 5 Yo delvers I STFFLNR SEGMENTED RISER STF-APC24G page 6 STF-APC24B page 6 STF-R824B page 9 STF-AR24 page 9 STF-APC24GI-075 page 14 STF-APC248I-075 page 14 STF-APC24GI-100 page 14 STF-APC248I-100 page 14 STF-APL24G page 14 U.S. Patent Pending STF-APL24B page 14 PAGE Toll Free 888-999-3290 Office 231-582-1020 Fax 231-582-7324 Email simtech@freeway.net Web www gag-simtech corn O • Technical Data Sheet • 4-in. (100-mm) Biotube® Effluent Filters Extendable Applications $ tee handle Orenco®4-inch Biotube®Effluent Filters are designed to remove sol- Vented top plate, ids from effluent leaving residential septic tanks.They can be used in standard new and existing tanks at flows of up to 1200 gpd. Lot, General Orenco 4-inch Biotube Effluent Filters(U.S.Patents No.4,439,323 and Biotubes 5,492,635)are used to improve the quality of effluent exiting a septic tank in a residential septic system.Increased effluent quality improves system • • • performance and extends drainfield life. The Biotube cartridge fits tightly in the vault and is removable for Biotube filter maintenance.The tee handle can be extended for easy removal of the cartridge cartridge. Standard Models FTS0444-36,FTS0444-36M, FTW0436-28,FTW0436-28M :.i FTW0444-36,FTW0444-36M i ii Product Code Diagram FTPSO436-36 FT = = 04 - - Flow modulator and float switch bracket options: Blank = no options selected ( Flow modulation M = flow modulation plate installed A = float switch bracket installed plate(optional) Cartridge height,in.(mm): 28 = 28(711),standard 36 = 36(914),standard Filter housing height,in.(mm): Vault 36 = 36(914),standard 44 = 44(1118),standard 4-in.(100-mm)filter diameter Biotube filter Outlet tee: vault +1•F Inlet holes W = fits Type 3034 outlet tee S = fits Schedule 40 outlet tee Filter mesh option: Blank = 1/2-in.(3-mm)filter mesh P = 1/16-in.(1.6-mm)filter mesh Biotube®effluent filter Materials of Construction Vault PVC Biotube®cartridge Polypropylene and polyethylene Handle components PVC,polyethylene,stainless steel Orenco Systems®Inc.,814 Airway Ave.,Sutherlin,OR 97479 USA•800-348-9843•541-459-4449•www.orenco.com NTD-FT-FTS-1 Rev.2.0,©03/17 Page 1 of 2 1171411k ' I • Technical Data Sheet • " Air vent(on optional flow modulation plate) iy• Discharge orifice(on optional flow modulation plate) boo iE IE gi gig Eg A B C gi gig gi gig gi gig F. D� Specifications Model FTS0444-36/FTS0444-36MFTW0436-28/FfW0436-28M FTW0444-36/FTW0444-36M A-Vault height,in.(mm) 44.00(1118) 36.00(914) B-Cartridge height,in.(mm) 36.00(915) 28.00(710) C-Inlet hole height,*in.(mm) 21.25(540) 19.25(489) D-Nominal diameter,in.(mm) 4.00(100) 4.00(100) Number of inlet holes 8 8 Inlet hole diameter,in.(mm) 1.13(29) 1.13(29) Number of discharge orifices 1 or 2t 1 or 2t Discharge orifice diameter,in.(mm) 4.00 or 0.25(100 or 6)t 4.00 or 0.25(100 or 6)t Discharge coupling diameter,in.(mm) 4.00(100) 4.00(100) Number of air vents 1 1 Air vent diameter,flow modulation plate,in.(mm) 0.50(13) 0.50(13) Filter surface area,$ft2(m2) 5.1 (0.50) 3.9(0.40) Flow area,**ft2(m2) 1.5(0.15) 1.2(0.12) Inlet hole height can vary depending on the configuration of the tank.0ltimum hole height is 70%of the minim'm liquid level. t Available on optional flow modulation plate. #Filter area is defined as the total surface area of all individual Biotubes®within the fitter cartridge. **Row area is defined as the total open area(or area of the mesh openings)of all the individual Biotubes within the filter cartridge. NTD-FT-FTS-1 Orenco Systems®Inc.,814 Airway Ave.,Sutherlin,OR 97479 USA•800-348-9843•541-459-4449•www.orenco.com Rev.2.0,©03/17 Page 2 of 2 "A._ Biotube® Effluent Filters csi Orenco Systems IncorporatPd 1-800-348-9843 Installation, Operation and Maintenance Instructions FT08 Models and All Base Inlet Models U.S. Patent Nos. 5294635/4439323 Installation Instructions: The Biotube Effluent Filter is suspended in the septic tank by the 4"outlet pipe.The filter is composed of a vault body that will be fixed to the discharge pipe and a removable cartridge that consists of the Biotube filter cartridge and the extendible handle. 1. Test-fit the effluent filter on the 4"out- let pipe without gluing. Make sure that it fits plumb. t J! 1 Any existing outlet tee will have to be removed. 1. 1 li 2. Ensure sufficient clearance for trouble- " - free servicing of filter cartridge. Install 1,4. assembly near the tank wall to reduce ;r;� any stresses that may be caused by maintenance. �"` 1 Sufficient room between the accessr7.1t.: port and filter should be provided for easy removal of solids from the tank. The cartridge will need to be removed and cleaned while the tank's solids ` - content is being pumped-out. NIN-FT-FTM-1 Rev.1.3,©12/02 Page 1 of 4 Installation Instructions (continued) 3. Once the filter has been fitted properly, apply primer and PVC cement to the outside of the outlet pipe and the filters 4" outlet. Use a multipurpose cement if the outlet pipe is ABS. Do not use .� primer on ABS. AO 1 Optional:Stainless steel set screws may be used instead of glue. I 4. Slide the effluent filter onto the 4" pipe and plumb vertically. 5. Hold the filter in position until the adhe- sive has time to set (approximately 20 , - 71 seconds). v —1. 6. Extend the handle of the cartridge to an I� elevation above the top of the tank for easy access. Use 3/4" schedule 40 PVC for extension. Either use the stainless steel set screws or glue the extensions in place. • NIN-FT-FTM-1 Rev.1.3,©12/02 Page 2 of 4 Technical Data Sheet External Splice Boxorenco Systems 800-348-9843 Applications Standard Models The Orenco®External Splice Box attaches outside the access SBEX1-4,SBEX1-4-P riser of an underground tank.It is engineered specifically for water and wastewater treatment systems and is especially suited Nomenclature for use in locations prone to high groundwater and other wet conditions.Its separate conduit hubs,large volume,and optional SBEX1-4 — dividers make it useful for maintaining isolation of high and low T voltage wires where needed.It has four cord grips which accom- I Blank=no divider plates modate power cords for floats and pumps of 0.170-0.470 inches P =divider plates (4.3-11.9 mm)in diameter.Unused cord grips can be plugged watertight with the supplied cord grip plugs.Each External Splice External splice box Box is provided with a hole-cutting template to simplify installa- tion on the riser. General SBEX1-4, Use as Needed Run cords through Splice Box to Panel. To specify the Orenco External Splice Box for your installation, DO NOT CUT WIRES IN SPLICE BOX IF POSSIBLE require the following: • Watertight for prolonged submergence per UL listing(Type 6P) • Attachment external to access riser to allow inspection with no need to open the riser lid • Volume of 100 in.3(1639 cm3)for easy wiring access and to accommodate multiple wiring configurations I • Bottom entry,so conduit or direct-bury cable always remains below minimum burial depth • Molded of UL(f1)rated plastic,resistant to cold and UV exposure,suitable for external applications ,, • Optional divider plates available for isolating high and low vol- tage wires from separate conduits or direct-bury cable 7 . // (/ ,. , � / ,, (/ t,,k The External Splice Box is molded of a UL (f1l rated PVC alloy.It has a UL Type 6P list- ing for prolonged submergence. . \r‘ , ,,, .. .,ts,• 43 1 ®2009 Orenco Systems®Inc. NTD-SBEX-1 Rev.1.0,©5/09 Page 1 of 2 External Splice Box (continued) Physical Specifications Materials of Construction Volume 100 in.' 1 m3( 639 c ) Splice box PVC alloy Y Cord grips 4 per SBEX Cord grips Nylon Cord grip plugs 3 per SBEX Cord grip plugs EPDM rubber Cord diameters 0.170-0.470 in.(4.3- 11.9 mm) 0-rings Buna rubber accommodated Conduit hub plug PVC per ASTM D-1784 Conduit hubs 2 Conduit hub plug 1 Conduit sizes 3/in. accommodated 1 in.(with coupling) 1/2 in.(with fitting or bell end) Diameter of hole 5 in.(127 mm) into riser (hole-cutting template included) 4 5.24 in.(133 mm) Threaded cap - 8.25 in.(133 mm) 4.5 in. T iil (114 mm) 1111 Iniiiiiii illi.... al all Ili• I Cord grip Cord grips Cord grip Optional 1 Conduit Optional plugs(3) (4) plate divider hubs(2) divider Conduit hub plug (1) NTD-SBEX-1 ©2009 Orenco Systems®Inc. Rev.1.0,®5/09 Page 2 of 2 Trusted.Tested.Tough." ® SECTION:2.15.050 FM2779 OELLER Product information presented 1016 here reflects conditions at time of publication.Consult factory Supersedes regarding discrepancies or PUMP COMPANY 0616 inconsistencies. TECHNICAL DATA SHEET FLOW-MATE SERIES Model 98 Submersible Effluent/Dewatering Pump PRODUCT SPECIFICATIONS -.3-7/8" 6-1/4" — (98 mm) (159 mm) Horse Power 1/2 _-4-5/8" — Voltage 115 or 230 1117 mm) CC Phase 1 Ph n 1 0 Hertz 60 Hz �_ � 3-7/8"(98 mm) 1 0 RPM 1725 Ct; \'\, f 2 Type Permanent split capacitor "p�`` '�•t� ��� 4"(102 mm) Insulation Class B V Amps 4.7-9.4 I 1-1/2"NPT Operation Automatic or nonautomatic Auto On/Off Points 9-1/2"(24 cm)/3"(7.6 cm) _ Discharge Size 1-1/2"NPT .(I f I�.— a Solids Handling 1/2"(13 mm)spherical solids -or-- ^l, II a. Cord Length 15'(5 m)standard Cord Type UL listed tz-t/tfi 7 1306mm1 •' I a Max.Head 23'(7 m) ilallik Max.Flow Rate 72 GPM(273 LPM) I 4-21/32"(118 mm)96SK7102 automatic _ Max.Operating Temp. 130°F(54°C) Cooling Oil filled Motor Protection Auto reset thermal overload 61/4" Cap Cast iron (159 mm) Motor Housing Cast iron 4 5/8" Pump Housing Cast iron (177 mm) co Base Cast iron VW 3 15/16"(100 mm) 1 el!\%M'r f1. Q Upper Bearing Oil-fed cast iron •�� � ��o CC Lower Bearing Oil-fed cast iron \U� W Mechanical Seals Carbon and ceramic 315116" i 1 1/2'NPT F, (100 mm) a Impeller Type Non-clogging vortex 2 Impeller Engineered plastic Hardware Stainless steel Motor Shaft AISI 1215 cold rolled steel Gasket Neoprene rilll' NOTE:See model comparison chart for specific details. 1 121/16" ■■ H (306mm) �II go _ O4o�i �_�1�11=11I 4 21/32'(118 mm) �9B' PPGC ��� �,l�ill I SK3126 S COAL* Tested to Standard UL778 and Cerfified to CSA Standard C222 No.108 ©Copyright 2016 Zoeller()Co.All rights reserved. 502-778-2731 1800-928-7867 13649 Cane Run Road I Louisville,KY 40211-1961 I www.zoeller.com cn TOTAL DYNAMIC HEAD cc FLOW PER MINUTE 2 w PUMP PERFORMANCE CURVE MODEL 98 MODEL 98 25 Feet Meters Gal. Liters o W6— 20 5 1.5 72 273 10 3.0 61 231 z 15 >- 4— 15 4.6 45 170 � 10 20 7.1 25 95 0 2_ Shut-off Head: 23 ft.(7.0m) 5 0 10 20 30 40 50 60 70 80 GALLONS LITERS I I I 0 80 160 240 FLOW PER MINUTE 009971 MODEL COMPARISON Model Seal Mode Volts Ph Amps HP Hz Lbs Kg Simplex Duplex M98 Single Auto 115 1 9.4 1/2 60 36 16 1 4 LN98 Single Non 115 1 9.4 1/2 60 36 16 2 or 3 4 f D98 Single Auto 230 1 4.7 1/2 60 36 16 1 4 �•1 E98 Single Non 230 1 4.7 1/2 60 35 16 2 or 3 4 BN98 Single Auto 115 1 9.4 1/2 60 37 17 BE98 Single Auto 230 1 9.4 1/2 60 40 18 -- *BN and BE models include a 20'(6 m)piggyback variable level pump switch. Additional cord lengths are available in 25'(8 m)and 35'(11 m).50'(15 m)cords are available for 230 V units only. SELECTION GUIDE 1. Integral float-operated mechanical switch, no external control required. 2. For automatic,use single piggyback variable level float switch or double piggyback variable level float switch.Refer to FM0477. 3. See FM1228 for correct model of simplex control panel. 4. See FM0712 for correct model of duplex control panel or FM1663 for a residential alternator system. OPTIONAL PUMP STAND P/N 10-2421 •141 • Reduces potential clogging by debris ) • Replaces rocks or bricks under the pump NO - • Made of durable,noncorrosive ABS • Raises pump 2"(5 cm)off bottom of basin i--` • Provides the ability to raise intake by adding sections of 11/2"or 2" �,• cp (DN40 or DN50)PVC piping ��\� • Attaches securely to pump ��`;��C\j t • Accommodates sump,dewatering and effluent applications �< . NOTE:Make sure float is free from obstruction. 0.i i io %`t\� %' A CAUTION All installation of controls,protection devices and wiring should be done by a qualified licensed electrician. All electrical and safety codes should be followed including the most recent National Electrical Code(NEC)and the Occupational Safety and Health Act(OSHA). ©Copyright 2016 Zoeller Co.All rights reserved. 502-778-2731 1800-928-7867 13649 Cane Run Road I Louisville, KY 40211-1961 I www.zoeller.com 10.280 ///AL/TYPUMPS 5,NCE 1�ilcl k;iLivArAir. ' ` " SECTION: 5FM05311 Product information presented ' 1009/2 here reflects conditions at time Supersedes of publication.Consult factory regarding discrepancies or MP !O. 1009 inconsistencies. MAIL TO: P.O. BOX 16347•Louisville,KY 40256-0347 visit our web site: SHIP TO: 3649 Cane Run Road •Louisville,KY 40211-1961 www.zoellercom (502)778-2731.1(800)928-7867•FAX(502)774-3624 SPECIFICATIONS EFFLUENT/SUMP SIMPLEX SYSTEM ZOELLER SUBMERSIBLE DEWATERING OR EFFLUENT PUMPS SEAL SOLIDS DISCHARGE MATERIAL MODELS Single 1/2" 1'/z"NPT Cast Iron 53 57 I 98 140 151 Single 1/2" 1'/2"NPT Cast Bronze 55 59 Single 5/8" 1'/z°NPT Cast Iron 137 191 Single 5/8" 1%'NPT Cast Bronze 139 Single 3/4" 1'/2" NPT Cast Iron 145 152 153 Single 3/4" 1 W,2", or 3 NPT Cast Iron 161 163 165 185 186 188 189 Double 1/2" 11/i' Cast Iron 4140 Double 3/4" 1'/W',2",or 3 NPT Cast Iron 4145 4161 4163 4165 4185 4186 4188 '4189 SIMPLEX SYSTEM Furnish a Zoeller Submersible Pump Model 98 Single Seal or Model Double Seal,with a capacity of 17.82 GPM against a Total Dynamic Head of 19.3 feet. Motor Specification: 115 Voltage, 1 Cycles, 1 Phase, 0.5 HP. Discharge to be X 1'/z inch NPT. Optional 2 inch NPT or 3 inch NPT (161/4161 - 189/4189). Cord length to be 9 feet. Pumps will pass X %inch solids(53,55,57,59,98, 140/4140&151 Series)or 5/8 inch solids(137&139 Series)or 3/4 inch solids(145/4145, 152, 153, 161/4161, 163/4163, 165/4165, 185/4185, 186/4186, 188/4188& 189/4189 Series.) Pumps shall be X UL Listed, X CSA Certified, SSPMA certified, State of Wisc.approved, other(Specify )• SINGLE PHASE PUMPS 137(cast iron) 139(cast bronze)series pump shall GENERAL have' HP split phase motor with current sensing,starting Pump motor shall be hermetically sealed, submersible type relay enclosed in switch housing. operating in a high quality dielectric oil for cooling the windings 151 (.33 HP) 152(.4 HP) 153(' HP)series and for lubrication of the motor bearings and ceramic-carbon shaft pump shall have a permanent split capacitor motor. The seal. Single phase motor shall have internal automatic resetting, impeller shall be "glass reinforced thermoplastic." Motor thermal overload protection. Construction shall be of cast housing shall be cast iron. iron with 100%baked-on powder coated epoxy finish for corrosion 145 (3/4 HP) 140 (1 HP) series pump shall have resistance and longer casting durability (or cast bronze). a permanent split capacitor motor with capacitor in the All fasteners and external metal parts shall be of stainless steel. switch housing attached to the pump. The impeller shall Impeller shall be of vortex non-clog design.(Addition noted below.) be "glass reinforced thermoplastic." Motor housing shall Check applicable series: be cast iron. Discharge shall be a permanently affixed 1% 53 (cast iron) 55 (cast bronze) series pump shall inch female NPT hub. have a shaded pole motor. Impeller,with metal insert,and 4140(1 HP cast iron) (4145(3 HP cast iron)series base shall be of glass reinforced molded material. Switch pump with double carbon/ceramic shaft seals shall have a case shall be of cast or molded material.Guard and handle 1 HP permanent split capacitor motor with capacitor in the shall be of stainless steel. switch housing attached to the pump. The impeller shall 57 (cast iron) _59 (cast bronze)series pump shall be"glass reinforced thermoplastic."Motor housing shall be have a shaded pole motor. Guard and handle shall be of cast iron.Discharge shall be a permanently affixed 1%inch stainless steel. female NPT hub.The lower seal cavity shall be oil-filled. X_98 (cast iron)series pump shall have HP PSC motor. 161 (Y� HP) 163 (1/2 HP) 165 (1 HP) cast iron series pump shall have a permanent split capacitor motor with run capacitor and magnetic contactor enclosed ©Copyright 2009 Zoeller Co.All rights reserved. - I • Technical Data Sheet - ------- VeriComm® AX2OB Control Panels Applications Features, cont. VeriComm AXB1 SA UV IB VeriComm®AX2OB remote telemetry control panels are used in Advanced Control Logic AdvanTex®AX20 Treatment Systems with two pumps for timed recir- • Activates system diagnostics in the event of a float failure or malfunc- culation and pump discharge. Coupled with the web-based VeriComm tion and maintains normal system operation until servicing can occur Monitoring System,these affordable control panels give the ability to Communication and Alarm Management remotely monitor and control treatment system operation,with real . Provides remote telemetry and a web based monitoring applica- time efficiency to wastewater system operators and maintenance tion for communication and alarm management(see VeriComm organizations,while remaining invisible to the homeowner.AX2OB Monitoring System,NTD CP VCOM 1) panels allow remote operators to change system parameters, includ- ing timer settings,from the web interface.Interlocked controls prevent • Updates point values(including timer settings)and queued changes recirculation pump operation if there is a high-level alarm on the dis- during each host communication session charge side. • Contacts with host monthly; more frequently during alarm conditions Multiple Communication Methods Mill • Call In to VeriComm®Host(phone line or optional high speed Internet) • - —Signals critical fault conditions that require immediate attention ., (e.g.,pump failure)through automatic alarm notifications �.• —: „ —Signals less critical fault conditions(e.g.,stuck float switch)through `_ _ . automatic alert notifications and triggers the panel's troubleshooting ..... �'• logic and alternative operating mode —Sends updates through automatic update notifications,including � I 1',It'; alarm updates or all clear notifications following alarms/alerts,as - �, well as normally scheduled monthly panel reports 1�� HI —Allows manual,forced communication from panel to host for updat- • 1 ft • �1` _� 5.—""--m—*' i • ing point values and receipt of queued changes J _ , • • Real-Time,Manual Direct Panel Connection _ —Allows a local operator real-time access to detailed logged data TypicalAX20B VeriComm'Control Panel and the ability to change point values through direct connection via Standard Models:VCOM4X2081,VCOMAX2OB2 RS-232 serial port from a laptop or Android®device with optional Bluetooth®kit —Allows a local operator to initiate an auto-answer mode in real-time Features to access detailed logged data and the ability to change point val- ues via direct,forced communication at the site Three Operating Modes Open-architecture software with password security is used during • "Start-Up Mode"collects trend data and establishes operating stan- real-time,manual connections.Orenco offers BT-VCOM software as an dards during the first 30 days of operation option,but VeriComm panels require no proprietary software.VT100 • "Normal Mode"manages day-to-day functions protocol allows access and control from a Mac or PC computer using a • "Test Mode"suspends data collection and alarm reporting during simple communication program (e.g.,Windows®HyperTerminal),with installation and service multilevel password protection ensuring that only qualified personnel can Data Collection and Utilization access the panel's data. • Compiles data logs of system conditions and events such as pump Status Light Indicators run times,pump cycles,and alarm conditions —Flashing green LED for normal operation Troubleshooting and Diagnostic Logic —Yellow LEDs for status of digital inputs • Reports suspected component failures,which then trigger alarms —Red LEDs for status of digital outputs and modem activity UL-recognized and FCC-approved For more information,try our online demo at www.vericomm.net(no password required). Orenco Systems®Inc.,814 Airway Ave.,Sutherlin,OR 97479 USA•800-348-9843•541-459-4449•www.orenco.com NTD-CP-VCOM-3 Rev.2.0,©06/18 Page 1 of 2 1 • Technical Data Sheet II • \ ��,/ \°' .�L4/ torTm !lc.' 1J: id !goo oi`Ilii,_o--=emu _(13 0 U0.00 4. ,4. 0 ®r'- owowowo Of= \3 00.....0.10000 \0 / O�-1 �— z°f 0 0 Standard Components Feature Specifications 1.VeriComm®Remote ATRTU-100:36/18 VAC(center tap transformer);8 digital inputs,4 analog inputs,4 digital outputs,0 analog outputs, Telemetry Unit' on-board modem(2400 baud);LED input and output indicators;1-year battery backup of data and program settings 2.Motor-Start Contactors 120 V,16 FLA,1 hp(0.75 kW),60 hz;2.5 million cycles at FLA(5 million at 50%of FLA) 240 V,16 FLA,3 hp(2.24 kW),60 hz;2.5 million cycles at FLA(5 million at 50%of FLA) 3.Toggle Switch Single-pole,single-throw,momentary manual switch;20 A,3/4 hp(0.75 kW) 4.Controls Circuit Breaker 10 A,OFF/ON switch;single-pole 120 V;DIN rail mounting with thermal magnetic tripping characteristics(240 V units are available for international markets) 5.Pump Circuit Breaker 20 A,OFF/ON switch;single-pole 120 V or double-pole 240 V;DIN rail mounting with thermal magnetic tripping characteristics 6.Fuse 250 VAC,1 A 7.Transformer 120 VAC primary,36 VCT©0.85 A secondary 8.Audible Alarm 95 dB at 24 in.(610 mm),warble-tone sound 9.Visual Alarm 7i8-in.(22-mm)diameter red lens;`Push-to-silence;"UL Type 4X rated,1 W LED light,120 V 10.Panel Enclosure Measures 13.51 in.high x 11.29 in.wide x 5.58 in.deep(343 x 287 x 135 mm).UL Type 4X rated.Constructed of UV-resistant fiberglass;hinges and latch are stainless steel. *See VeriComm6 Monitoring System(NTD-CP-VCOM-1)for details. Optional Components Feature Specification(s) Product Code Adder Pump Run Lights 7i8-in.(22-mm)diameter green lens.UL Type 4X rated,1 W LED light,120 V PRL Heater Anti-condensation heater;self-adjusting:radiates additional wattage as temperature drops HT Programmable Timer Discharge pump timed dosing PT UV Disinfection Compatibility UV grounded power circuit and alarm contacts;pump disable upon UV failure UV Additional options available on a custom basis.Contact Orenco Controls for more information. NTD-CP-VCOM-3 ® Ave.,Sutherlin,OR 97479USA• 4 4 •541-4 -444 •www.orenco.com Orenco Systems Inc.,814 Airway A e,Su a , 800 3 8 98 3 59 9 0 Rev.2.0,®06/18 Page 2 of 2 II • ® Technical Data Sheet Orenco® UV Disinfection Unit Applications General The Orenco®UV Disinfection Unit is designed for use in residential Treated effluent flows by gravity through the contact chamber and applications after advanced secondary treatment(10 mg/L cBOD5 around the UV lamp where it is disinfected in a 360-degree contact and TSS)when disinfection is required before dispersal. zone.The unit uses no chemicals and has no moving parts. It requires It requires installation inside a pump or gravity discharge basin or in a annual cleaning and lamp replacement. separate tank following an advanced secondary treatment system. In side-by-side NSF®testing,the Orenco UV Disinfection Unit reduced bacteria by 99.999% (5 logs), meeting or exceeding the performance - of other residential UV disinfection units. The Orenco UV Disinfection Unit comes with a power ballast and a Orenco®UVIB lamp current sensor, housed in an Orenco control panel to protect the ra. control panel UV unit's electronic components.The control panel is installed exter- u....~- (shown open) nally,outside of the wet well. • =To Features/Specifications ir • UL-recognized for US and Canada • Bacteria reduced by 99.999% (5 logs) Power cord Cord grip • Flow path designed for maximum contact time between effluent and lamp 1. Vented lamp handle • Components designed to work together—no piecemeal Sdisinfec- Outlet tion assemblies and wiring 3-in.(80-mm) I • Teflon sleeve to protect lamp and minimize buildup and service quick-disconnect cou- piing(2 pieces) AO intervals • Quick-disconnect fitting for easy inspection and unit cleaning • Power ballast and lamp current sensor housed in a control panel Inlet (not in a wet well)to minimize corrosion and failure due to environ- mental exposure Contact Standard Models chamber UV-125/31-UVIB,UV-125/31-UVIBSUB Ski Product Code Diagram Teflon®sleeve - UV - 125/31 - - t. Power cord length: Blank= 25 ft(7.62 m) UV lamp 50 = 50 ft(15.2 m) Control panel options: UVIB = panel with audible and visible alarms UVIBSUB= sub-panel for use with separate control panel Flow-through Lamp length: Spacer 31 =31 in.(787 mm) f Lamp output at 1 meter: 125=125 µW/cm2 Orenco®UV Disinfection Unit,Cutaway View Orenco UV disinfection unit C Si a US UL-recognized Orenco Systems®Inc.,814 Airway Ave.,Sutherlin,OR 97479 USA•800-348-9843•541-459-4449•www.orenco.com NTD-UV-OSI-1 Rev.2.0,0 03/17 Page 1 of 2 Orenco Technical Data Sheet SYSTEMS I. •l Materials of Construction i . u Panel enclosure UV-resistant fiberglass,UL Type 4X rated Hinges and latches Stainless steel .0..M _�I Cord grip Nylon i J Contact chamber 3-in.(80-mm)diameter Sch 40 black ABS °= n Inlet tee 3-in.(80-mm)Sch 40 black ABS awe. Other fittings Black ABS 0 11116= = i^ O ,•..._.iii.0 Quick disconnect Black ABS coupling Orenco UVIB Control Panel 1 Y2-in.IPS outlet Black ABS (Shown Opened) Lamp assembly seal EPDM rubber Lamp sleeve Teflon® _Th •_ Specifications IPanel Dimensions, in. (mm) T AG Height 11.5(290) T �� 111 II Width 9.5(240) A V�/ I D Depth 5.4(135) ■ 14 I. . I UV Unit Dimensions, in. (mm) B , A 5.63(143) Orenco UV Disinfection Unit B 10.06(256) (Top View) C 1.50 IPS(40 DN) D 42.25(1073) D E 38.56(979) E F 34.50(876) F Inlet-to-outlet fall 0.50(13) UV Unit Performance Typical contact chamber 276,000 µWs/cm2 at 1 gpm(0.06 Usec) UV dose(65%trans- 55,000 µWs/cm2 at 5 gpm(0.32 Usec) mittance,20%lamp 28,000 µWs/cm2at 10 gpm(0.63 Usec) degradation) Minimum target dose 30,000-38,000 µWs/cm2• Lamp 31 inches(787 mm),92 VAC,50 or 60 Hz, 425 mA,38 W;254 nm UVC intensity at 1 m is 125 µW/cm2 Power cord 600V,18/2 UL Type TC Cord plug UL listed four-pin connector,lampholder, electric discharge,1000 V or less Ballast 120V,AC,50 or 60 Hz,located in UL listed Orenco®control panel Iti Audible alarm* 95 dB at 24 in.(610 mm),warble-tone sound Visual alarm* 1/2-in.(22-mm)diameter red lens,"Push-to- • silence."UL Type 4X rated,1 W LED light,120 V Orenco UV Disinfection Unit (Side Cutaway View) Circuit breaker 10 A,OFF/ON switch.Single-pole 120 V*. DIN rail mounting with thermal magnetic tripping characteristics *UVIB control panels only NTD-UV-OSI-1 Orenco Systems®Inc.,814 Airway Ave.,Sutherlin,OR 97479 USA•800-348-9843•541-459-4449•www.orenco.com Rev.2.0,©03/17 Page 2 of 2 4.11 � • Technical Data Sheet.- - - „ . , Orenco® AXUV Disinfection Unit Applications General The Orenco®AXUV Disinfection Unit is designed for use in residential Treated effluent flows by gravity through the contact chamber and applications after advanced secondary treatment(10 mg/L cBOD5/TSS) around the UV lamp where it is disinfected in a 360-degree contact by an AdvanTex®Treatment System when disinfection is required before zone.The unit uses no chemicals and has no moving parts.It requires dispersal.It requires installation inside a pump or gravity discharge basin annual cleaning and lamp replacement. or in a separate tank following an AdvanTex Treatment System.AXUV In side-by-side NSF®testing,the AXUV reduced bacteria by 99.999% units can be also be mounted in the AX20-RT Treatment System. (5 logs), meeting or exceeding the performance of other residential UV disinfection units. For protection,the power ballast and lamp current sensor for the AXUV Power cord disinfection unit are housed in either an Orenco MVP'" digital control panel or a VeriComm`"' remote telemetry control panel.These panels Cord grip prevent discharge of non-disinfected effluent due to lamp failure or Vented lamp handle control panel failure.The current sensor monitors lamp function and, ' in the event of lamp failure,the discharge pump is automatically dis- Outlet abled.With MVP-equipped systems,an audible and visible alarm is 3-in.(80-mm) = activated.With VeriComm-equipped systems,an e-mail alert is sent to quick-disconnect cou- � the Service Provider. piing(2 pieces) Features/Specifications Inlet • UL-recognized for US and Canada • • Bacteria reduced by 99.999% (5 logs) • Flow path designed for maximum contact time between effluent and Contact lamp chamber • Teflon sleeve to protect lamp and minimize buildup and service intervals • Quick-disconnect fitting for easy inspection and unit cleaning • Power ballast and lamp current sensor housed in a control panel Teflon®sleeve — (not a tank or riser)to minimize corrosion and failure due to envi- ronmental exposure • Components designed to work together with AdvanTex Treatment Systems—no piecemeal disinfection assemblies and wiring UV lamp Standard Model AXUV-1 25/31 Product Code Diagram Flow through ' • AXUV - 125/31 - spacer Power cord length: Blank= 25 ft(7.62 m) 50 = 50 ft(15.2 m) AXUV Disinfection Unit,Cutaway View 3 Lamp length:i 31n.(787 mm) Lamp output at 1 meter: 125=125 µW/cmz C US UL-recognized AdvanTex"W disinfection unit Orenco Systems®Inc.,814 Airway Ave.,Sutherlin,OR 97479 USA•800-348-9843•541-459-4449•www.orenco.com NTD-uV-0SI-2 Rev.2.0,©03/17 Page 1 of 2 I • Technical Data Sheet. ,- ' '------ Materials of Construction How path 111 — 41111 Flow path Cord grip Nylon 11110,- A : (.4( C —� Contact chamber 3-in.(80-mm)diameter Sch 40 black ABS Inlet tee 3-in.(80-mm)Sch 40 black ABS B ' Other fittings Black ABS AXUV Disinfection Unit,Top View Quick-disconnect Black ABS coupling 11/2-in.IPS outlet Black ABS 1 I. Lamp assembly seal EPDM rubber D I Lamp sleeve Teflon® I t l I Specifications UV Unit Dimensions,in. mm E ( ) _rill4! 0 i A 5.63(143) G B 10.06(256) C 1.50 IPS(40 ON) F D 42.25(1073) E 38.56(979) F 34.50(876) G,inlet-to-outlet fall 0.50(13) UV Unit Performance Typical contact chamber 270,000 µWs/cm2 at 1 gpm(0.06 Usec) W dose(65%trans- 55,000 µWs/cm2 at 5 gpm(0.32 Usec) mittance,20%lamp) 28,000 µWs/cm2at 10 gpm(0.63 Usec) degradation) Minimum target dose 30,000-38,000 µWs/cm2. Lamp 31 inches(787 mm),92 VAC,50 or 60 Hz, 425 mA,38 W;254 nm UVC intensity at 1 m is 125 µW/cm2 Power cord 600V,18/2 UL Type TC Cord plug UL listed four-pin connector,lampholder, electric discharge,1000 V or less Ballast 120V,AC,50 or 60 Hz,located in UL listed Orenco®control panel r■r kute • AXUV Disinfection Unit,Side Cutaway View NTD-UV-OSI-2 Orenco Systems®Inc.,814 Airway Ave.,Sutherlin,OR 97479 USA•800-348-9843•541-459-4449•www.orenco.com Rev.2.0,©03/17 Page 2 of 2 Technical Data Sheet UV Disinfection Unit CO Orenco terns Incorporated 800-348-9843 Applications General The Orenco®UV Disinfection Unit can be used after secondary In a pump or gravity discharge basin or tank,treated effluent is treatment(10 mg/L CBOD5/TSS)in applications requiring disinfec- disinfected as it flows through the housing and around the UV tion before dispersal. lamp.The unit uses no chemicals and has no moving parts.It In NSF Standard 40 testing for fecal coliform reduction using typi- annual cleaning and lamp replacement. cal residential flows of 500 gpd(1890 L/day),the UV Disinfection Unit reduced fecal coliform by 99.9 percent(3 logs).Specifically, Features/Specifications it yielded an overall geometric mean of 1.71 cfu/100 mL The bulb used in testing was rated at 125 pW/cm2 intensity. To specify this component for your secondary treatment system, require the following: This test used effluent treated by an AdvanTex®AX20 Treatment System,which produced effluent of 4 mg/L CBOD5,6 mg/L TSS, For all secondary treatment systems: and 1.2 NTU,with a geometric mean of 1.35 x 104 cfu/100mL. • Require a secondary treatment system that produces Similar reductions in fecal coliform can be expected from other 10 mg/L CBOD5 and TSS in the field. secondary treatment systems that produce 10 mg/L CBOD5 and • Require a power ballast and lamp current sensor housed in a TSS in the field. control panel(not a tank or riser)to minimize corrosion and For information on commercial or high-flow applications,contact failure due to environmental exposure. Orenco's Engineered Systems department. • Require a quartz sheath to minimize buildup and service intervals Power cord • Require a quick-disconnect fitting for easy inspection and Cord grip cleaning. For Orenco's AdvanTex Treatment Systems: Lamp handle • Require suitability with Orenco MVP Panels or the VeriComm® Monitoring System.When coupled with an AdvanTex Treatment System,the MVP panel or VeriComm Monitoring Inlet System prevents discharge of non-disinfected effluent due to lamp failure.A current sensor monitors lamp function and,in 11 Outlet the event of lamp failure,the AdvanTex discharge pump is 1 automatically disabled.With MVP panels,an audible and visible alarm is activated.With VeriComm-equipped systems Housing a text alert is sent to the Service Provider. Standard Model UV-125/31-P Quartz sheath I Nomenclature and lamp UV - 125 / 31 - P THousing material: P = Sch 40 ABS Lamp length: Flow-through 31 = 31 in.(787 mm) spacer 1' Lamp output: 125=125 µw/cmz UV disinfection unit Orenco®UV Disinfection Unit, cutaway view ©2010 Orenco Systems®Inc. NTD-UV-OSI-1 Rev.1.0,©1/10 Page 1 of 2 UV Disinfection Unit (continued) r_1 J A E yO )lrall G Flow path - . F B Flow path Orenco UV Disinfection Unit,top view �f 1 r D t Materials of Construction C Cord grip Nylon Housing 3-in.180-mm)diameter Sch 40 black ABS Inlet tee 3-in.180-mm)Sch 40 black ABS Other housing fittings Black ABS Quick-disconnect Black ABS coupling 11/2"IPS outlet Black ABS Lamp assembly seal EPDM rubber Lamp sleeve 20.5-mm quartz sleeve Specifications Dimensions,in.(min) A 42.26 11073) B 36.00 1914) C 30.87(784) D 0.50 1131 E 4.00 1100) F 7.60(1931 G 1.50 IPS(40 DN) Performance L J Lamp 31"1787 mm),120V,AC,50 or 60 Hz,425 mA, 38 W;radiant intensity is 125 µw/cm2 at 254 nm Ballast 120V,AC,50 or 60 Hz,located in UL listed Orenco control panel Power cord 600V,18/2 UL Type TC,25 ft(7.62 m)standard length Cord plug UL listed four-pin connector,lampholder, Orenco UV Disinfection Unit,side cutaway view electric discharge,1000 V or less NTD-UV-OSI-1 ©2010 Orenco Systems®Inc. Rev.1.0,©1/10 Page 2 of 2 ,_. ,,,, Float Switch Assemblies °si Oro nco Systems' ,pazced 1-800-348-9843 Installation, Operation and Maintenance Instructions Model e MF Installation Instructions The float switch assembly is typically mounted in the screened pump vault or effluent screen inside of a septic or dosing tank. The assembly is detachable without removal of the screened pump vault or effluent screen.A typical float switch assembly is shown below. Step 1: Each float cable is provided with a color marker.This marker indicates the 0 , /-L--0 function of the float. Make sure that your float cable color markers corre- spond with the wiring diagram provided. If the wiring diagram does not r =— Float function match your float cable marker colors, contact Orenco Systems®Inc. or color marker your local dealer for assistance. 1 Float stem 1‘ 1 ', Adjustable float tll I collar 1 1..i • Stainless steel it set screw 441 .„,,,,,,, ,,,,t 1 vr.i n Float mwol% Step 2: To check for proper float switch operation, move each switch up and down and check for interference. Remove the assembly from its holding bracket01°11:11' --.%) by snapping it out of the holding bracket. i \ i f1� t'. - ilvc:11----- t Al) : 1 ©2003 Orenco Systems'Inc. NIN-MF-MF-1 Rev.2.0,©11/04 Page 1 of 4 1 Installation Instructions (continued) Step 3: _ If any float interferes with another,the float may be adjusted by loosening ir _: the stainless steel set screw provided in the float collar. Using a Phillips screwdriver,slowly back the screw out of the collar to a point at which the collar may be adjusted. Be careful not to back the screw completely out of inthecollar. CarefullyrotatethecollaronthestemuntilthefloatswitchescanImovefreelypastoneanother.Tightenthestainlesssteelsetscrewandrecheck.� ! Warning: Be careful not to alter the the tether lengths of any of the floats. %,x ` tk v Alteration of the tether length may affect proper operation of the float se rt' switch assembly.kir 1 IT• :t, irj064 , I 1 ® Step 4: Check the float settings with the project plans and specifications. If the set- tings need to be adjusted,loosen the set screw as described in step 3. Adjust the float switches to the desired level and tighten the set screw. ro it sure float level settings do not violate any state or local regulations. Note: The float stem provided is the maximum length possible without !� interfering with the pump minimum liquid level or screened pump vault intake ports. Never lengthen the float stem without prior approval from / Orenco. Lengthening of the float stem will void the warranty. OW ". Step 5: © 'INSReplace the float switch assembly in the holding bracket. Make sure the s ♦ assembly snaps fully into the bracket. Step 6: g To allow for easy removal of a float switch assembly, a 1" diameter handle ,� may be added to the top of the float switch assembly. Measure the distance Ifrom the top of the float switch assembly up to about one foot from grade level. Cut a 1" diameter PVC pipe to the measured length and glue it into the handle. ill NIN-MF-MF-1 ©2003 Orenco Systems®Inc. Rev.2.0,©11/04 Page 2 of 4 Installation Instructions (continued) Step 7: When used with an Orenco electrical splice box: ' Push the level control wires through the watertight cord grips into the electrical splice box. Leave an adequate length of electrical cable coiled 1 inside the riser to allow for easy removal of the pump and float switch assembly. Do not remove the colored markers or the paper tags from the float cables,and do not try to thread the markers and tag through the , V,o cord grip.Tighten the cord grips by hand,not by tool,then test the tight- ness of the cord grips by tugging on each cable.A cable is secure when the cord grip is tight enough to prevent slippage.Adequate lengths of cable should be left within the splice box to allow easy removal for future disconnecting and resplicing. Note: See the splice box instructions(EIN-SB-SB-1)and corresponding splice box diagram for connection instructions. ©2003 Orenco Systeme Inc. NIN-MF-MF-1 Rev.2.0,©11/04 Page 3 of 4 Maintenance Instructions °61 omnco Systems' Incorporated 1-800-348-9843 During the annual inspection,follow the testing procedures provided to ensure that the system is operating properly. If a float is found to be faulty,either during the annual inspection or during troubleshooting after an alarm condition,see the section below titled Removing and Replacing Inoperative Floats. Removing and Replacing Inoperative Floats Important Before doing any work either on the wiring to the level control floats and pump in the vault or in the pump control panel,switch the circuit breakers in the panel to their"OFF"positions;then switch off the power to the system at the service entrance panel. 1. Remove the float assembly from the vault. 2. Using a Phillips screwdriver, remove the stainless steel screws from the splice box lid,being careful not to drop the screws into the tank. If the splice box was submerged,or if there is a crack in the conduit,there may be water in the splice box. If this is the case,remove water from the splice box with a syringe,sponge,or other appropriate method. Loosen the cord grip at the splice box and verify the appropriate splice for the float. Unscrew the wire nuts and remove the float. 3. Remove the inoperative float and replace it with a new one. Push the float cable through the watertight cord grip into the electrical splice box. Leave an adequate length of electrical cord coiled inside the riser to allow for easy removal of the float assembly. Do not remove the colored markers or the paper tags from the float cords, and do not tryto thread the markers and Y P P 9 tag through the cord grip.Tighten the cord grip by hand,not by tool,then test the tightness of the cord grip by tugging on the cord.A cord is secure when the cord grip is tight enough to prevent slippage.An adequate length of cord should be left within the splice box to allow for easy removal for future disconnecting and resplicing. 4. Refer to document EIN-SB-SB-1 for instructions to splice the float wire to the wire from the control panel.Attach the float wires using the waterproof wire nuts. It is necessary to replace this wire nut with a new watertight wire nut.Always use watertight wire nuts or heat shrink splice kits for all connections! 5. Replace the float and collar and return the assembly to the pump vault. 6. Reconnect power and test the unit. NIN-MF-MF-1 ©2003 Orenco Systems®Inc. Rev.2.0,©11/04 Page 4 of 4