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SW6210204_Report (SW)_20210422
December 1, 2020 NARRATIVE / CALCULATIONS / MAPS / SUPPORTING INFORMATION FOR STORMWATER REVIEW for project North Carolina National Guard Raeford Readiness Center POV &t MOV Expansion SCO# 18-19694-01 A w .... ����� ���� �.� III°'IV ��.�f- III2,8655 Engineer Q Timmons Group L = Attn: Frank Slinsky III, PE 033612 = 5410 Trinity Road, Ste. 102 4/ 22/ 21 -% Raleigh, NC 27607 FNGINEE� ��� T:919.866.4505 SLINs ' �`�� E: frank.slinskyna timmons.com Owner / Developer North Carolina National Guard Attn: LTC Rodney Newton 1636 Gold Star Dr., Suite 2600 Raleigh, NC 27607 T:984.345.6137 E: rodney.d.newton.mil(a)mail.mil TABLE OF CONTENTS Stormwater Narrative Stormwater Management Permit Application (copy) Environmental Maps: ■ USGS Quad Map ■ NRCS Soil Map ■ FEMA Flood Map Property Deed Stormwater Management Mapping Seasonal High Water Table Report Stormwater Calculations StormFilter Sizing Pre -Post Development Hydraulic Routing Outlet Protection Calculations StormFilter Supplement EZ Operations and Maintenance EZ (Refer to Full size plan set for additional information) Stormwater Narrative Narrative 1. General Information a. Project Name: Raeford Readiness Center POV & MOV b. Address: 305 Teal Drive, Raeford, North Carolina 27376 c. Total Site Area: 5.04 Acres d. Disturbed Area: 5.04 Acres e. Wetland Area: 0 Acres (there are no wetlands onsite). f. Ownership: North Carolina National Guard g. Proposed Development: This project will be site improvements for the North Carolina National Guard (NCNG) Readiness Center in Raeford, NC. The existing site contains the building in the center, an asphalt parking lot to the north, a gravel parking lot to the west and a grassed yard to the south and east. The construction will consist of repaving the asphalt parking to the north, adding gravel to the gravel parking lot to the west and adding an asphalt parking lot to the south. There will be a small amount of tree clearing to the south and west of the property. There will be light grading and the installation of a storm sewer system. Stormwater will be treated via an underground detention basin with Strom Filters in the southwest corner of the property. This permit is to serve the clearing, grading and installation of the improvements as stated above. The site is located within the Lumber River Watershed. h. Phasing: This project will be completed in a single phase. i. Existing Stormwater Permit: N/A j. NCDEQ Compliance Issues: None. k. Water & Sewer Service: No improvements to the existing water and sewer service. I. Historic Sites: N/A This is not a historic site and there are no historic features on this site. m. Public Funding This project is being funded with public monies. n. FEMA FIRM # 3710942400 J, dated October 17th, 2006 indicates that the site is outside the limits the 100-year flood plain. o. Soils on the site consist of predominately FaB, FaC, FaD (Fairview sandy clay loam) and Ur (Urban land). p. Pre -development BUA pre-1997 (On -Site): 2.16-ac q. Post -development BUA (On -Site): 3.75-ac r. BUA to be treated: 1.59-ac Stormwater Management Permit Application (copy) DEMLR USE ONLY Date Received Fee Paid Permit Number Applicable Rules: ❑ Coastal SW - 1995 ❑ Coastal SW - 2008 ❑ Ph 11- Post Construction (select all that apply) ❑ Non -Coastal SW- HQW/ORW Waters ❑ Universal Stormwater Management Plan ❑ Other WQ M mt Plan: State of North Carolina Department of Environment and Natural Resources Division of Energy, Mineral and Land Resources STORMWATER MANAGEMENT PERMIT APPLICATION FORM This form may be photocopied for use as an original I. GENERAL INFORMATION 1. Project Name (subdivision, facility, or establishment name - should be consistent with project name on plans, specifications, letters, operation and maintenance agreements, etc.): NCNG Raeford POV & MOV Expansion 2. Location of Project (street address): 305 Teal Drive City:Raeford County:Hoke 3. Directions to project (from nearest major intersection): Zip:28376 At Woodberry Drive and Teal Drive, turn west onto Teal Drive. In approximately 300 ft, the project is located on the left 4. Latitude:34° 58' 52" N Longitude:79° 14' 14" W of the main entrance to the project. II. PERMIT INFORMATION: 1. a. Specify whether project is (check one): ®New ❑Modification ❑ Renewal w/ Modificationt tRenewals with modifications also requires SWU-102 - Renewal Application Form b.If this application is being submitted as the result of a modification to an existing permit, list the existing permit numbern/a , its issue date (if known)n/a , and the status of construction: ❑Not Started ❑Partially Completed* ❑ Completed* *provide a designer's certification 2. Specify the type of project (check one): ❑Low Density ®High Density ❑Drains to an Offsite Stormwater System ❑Other 3. If this application is being submitted as the result of a previously returned application or a letter from DEMLR requesting a state stormwater management permit application, list the stormwater project number, if assigned, n/a and the previous name of the project, if different than currently proposed, n/a 4. a. Additional Project Requirements (check applicable blanks; information on required state permits can be obtained by contacting the Customer Service Center at 1-877-623-6748): ❑CAMA Major ®Sedimentation/Erosion Control: 5.04 ac of Disturbed Area ❑NPDES Industrial Stormwater 0404/401 Permit: Proposed Impacts b.If any of these permits have already been acquired please provide the Project Name, Project/Permit Number, issue date and the type of each permit: Is the project located within 5 miles of a public airport? ®No ❑Yes If yes, see S.L. 2012-200, Part VI: http://12ortal.ncdenr.org/web/lr/rules-and-regulations Form SWU-101 Version Oct. 31, 2013 Page 1 of 6 III. CONTACT INFORMATION 1. a. Print Applicant / Signing Official's name and title (specifically the developer, property owner, lessee, designated government official, individual, etc. who owns the project): Applicant/Organization: North Carolina National Guard Signing Official & Title:LTC Rodney D. Newton b. Contact information for person listed in item 1a above: Street Address:1636 Gold Star Drive City:Raleigh State:NC Zip:27607 Mailing Address (if applicable):1636 Gold Star Drive City:Raleigh State:NC Zip:27607 Phone: (919 ) 345-6137 Fax: Email:rodney.d.newton.mil@mail.mil Please check the appropriate box. The applicant listed above is: ® The property owner (Skip to Contact Information, item 3a) ❑ Lessee* (Attach a copy of the lease agreement and complete Contact Information, item 2a and 2b below) ❑ Purchaser* (Attach a copy of the pending sales agreement and complete Contact Information, item 2a and 2b below) ❑ Developer* (Complete Contact Information, item 2a and 2b below.) 2. a. Print Property Owner's name and title below, if you are the lessee, purchaser or developer. (This is the person who owns the property that the project is located on): Property Owner/Organization:n/a Signing Official & b. Contact information for person listed in item 2a above: Street Address: City: State: Mailing Address (if applicable): City: State: Phone: ( ) Fax: Email: 3. a. (Optional) Print the name and title of another contact such as the project's construction supervisor or other person who can answer questions about the project: Other Contact Person/Organization: Signing Official & b. Contact information for person listed in item 3a above: Mailing Address: City: Phone: ( ) Email: State: Zip: Fax: ( ) 4. Local jurisdiction for building permits: North Carolina State Construction Office Point of Contact:Farouk Zaman Phone #: (919 ) 807-4095 Form S)W-101 Version Oct. 31, 2013 Page 2 of 6 IV. PROJECT INFORMATION 1. In the space provided below, briefly summarize how the stormwater runoff will be treated. Stormwater runoff will be treated in a new underground detention SCM with StormFilters. The StormFilters will be sized to treat the 1.59 acres of additional impervious, any extra impervious that drains to the underground system will bvoass over the control weir. 2. a. If claiming vested rights, identify the supporting documents provided and the date they were approved: ❑ Approval of a Site Specific Development Plan or PUD Approval Date: ❑ Valid Building Permit Issued Date: ❑ Other: Date: b.If claiming vested rights, identify the regulation(s) the project has been designed in accordance with: ❑ Coastal SW - 1995 ❑ Ph II - Post Construction 3. Stormwater runoff from this project drains to the Lumber River basin. 4. Total Property Area: 5.0 acres Total Coastal Wetlands Area: 0 acres Total Surface Water Area: 0 acres 7. Total Property Area (4) - Total Coastal Wetlands Area (5) - Total Surface Water Area (6) = Total Project Area+:5.00 acres + Total project area shall be calculated to exclude the following: the normal pool of impounded structures, the area between the banks of streams and rivers, the area below the Normal High Water (NHM line or Mean High Water (MHM line, and coastal wetlands landward from the NHW (or MH1O line. The resultant project area is used to calculate overall percent built upon area (B UA). Non -coastal wetlands landward of the NHW (or MHW) line may be included in the total project area. 8. Project percent of impervious area: (Total Impervious Area / Total Project Area) X 100 = 75.0 9. How many drainage areas does the project have?1 (For high density, count 1 for each proposed engineered stormwater BMP. For low density and other projects, use 1 for the whole property area) 10. Complete the following information for each drainage area identified in Project Information item 9. If there are more than four drainage areas in the project, attach an additional sheet with the information for each area provided in the same format as below. Basin Information Drainage Area A Drainage Area _ Drainage Area _ Drainage Area _ Receiving Stream Name Toneys Creek Stream Class * C;Sw Stream Index Number 14-10-1.2 Total Drainage Area (sf) 75,405 On -site Drainage Area (sf) 75,405 Off -site Drainage Area (sf) 0 Proposed Impervious Area** (sf) 69,261 Impervious Area** (total) 91.8% Impervious— Surface Area Drainage Area A Drainage Area _ Drainage Area _ Drainage Area _ On -site Buildings/Lots (sf) 0 On -site Streets (sf) 0 On -site Parking (sf) 54,448 On -site Sidewalks (sf) 1,992 Other on -site (sf) 2,510 Future (sf) 0 Off -site (sf) 0 Existing BUA*** (sf) 10,311 Total (sf): 69,261 * Stream Class and Index Number can be determined at: http:,&ortal.ncdenr.or /wg eb/wq&s/csu/classifications Im ervious area is defined as the built upon area including, but not limited to, buildings, roads, parking areas, sidewalks, gravel areas, etc. Form SWU-101 Version Oct. 31, 2013 Page 3 of 6 'Report only that amount of existing B UA that will remain after development. Do not report any existing B UA that is to be removed and which will be replaced by new B UA. 11. How was the off -site impervious area listed above determined? Provide documentation. N/A Protects in Union County: Contact DEMLR Central Office staff to check if the project is located within a Threatened & Endangered Species watershed that maybe subject to more stringent stormwater requirements as per I5A NCAC 02B.0600. V. SUPPLEMENT AND O&M FORMS The applicable state stormwater management permit supplement and operation and maintenance (O&M) forms must be submitted for each BMP specified for this project. The latest versions of the forms can be downloaded from http://portal.ncdenr.org/web/wq/ws/su/bmp-manual. VI. SUBMITTAL REQUIREMENTS Only complete application packages will be accepted and reviewed by the Division of Energy, Mineral and Land Resources (DEMLR). A complete package includes all of the items listed below. A detailed application instruction sheet and BMP checklists are available from http://portal.ncdenr.org/web/wq/ws/su/statesw/forms does. The complete application package should be submitted to the appropriate DEMLR Office. (The appropriate office may be found by locating project on the interactive online map at http://portal.ncdenr.org/web/wq/ws/su/maps.) Please indicate that the following required information have been provided by initialing in the space provided for each item. All original documents MUST be signed and initialed in blue ink. Download the latest versions for each submitted application package from http:/ /portal.ncdenr.org/web/wq/ws/su/statesw/forms does. Initials 1. Original and one copy of the Stormwater Management Permit Application Form. FS 2. Original and one copy of the signed and notarized Deed Restrictions & Protective Covenants N/A Form. (if required as per Part VII below) 3. Original of the applicable Supplement Form(s) (sealed, signed and dated) and O&M agreement(s) for each BMP. 4. Permit application processing fee of $505 payable to NCDENR. (For an Express review, refer to http://www.envhelp.org/pages/onestopexpress.html for information on the Express program and the associated fees. Contact the appropriate regional office Express Permit Coordinator for additional information and to schedule the required application meeting.) 5. A detailed narrative (one to two pages) describing the stormwater treatment/management 6. A USGS map identifying the site location. If the receiving stream is reported as class SA or the receiving stream drains to class SA waters within 1/2 mile of the site boundary, include the 1/2 mile radius on the map. 7. Sealed, signed and dated calculations (one copy). 8. Two sets of plans folded to 8.5" x 14" (sealed, signed, & dated), including: a. Development/Project name. b. Engineer and firm. c. Location map with named streets and NCSR numbers. d. Legend. e. North arrow. f. Scale. g. Revision number and dates. h. Identify all surface waters on the plans by delineating the normal pool elevation of impounded structures, the banks of streams and rivers, the MHW or NHW line of tidal waters, and any coastal wetlands landward of the MHW or NHW lines. • Delineate the vegetated buffer landward from the normal pool elevation of impounded structures, the banks of streams or rivers, and the MHW (or NHW) of tidal waters. i. Dimensioned property/project boundary with bearings & distances. j. Site Layout with all BUA identified and dimensioned. k. Existing contours, proposed contours, spot elevations, finished floor elevations. 1. Details of roads, drainage features, collection systems, and stormwater control measures. m. Wetlands delineated, or a note on the plans that none exist. (Must be delineated by a qualified person. Provide documentation of qualifications and identify the person who made the determination on the plans. n. Existing drainage (including off -site), drainage easements, pipe sizes, runoff calculations. o. Drainage areas delineated (included in the main set of plans, not as a separate document). for FS FS FS FS Form SWU-101 Version Oct. 31, 2013 Page 4 of 6 'Report only that amount of existing B UA that will remain after development. Do not report any existing B UA that is to be removed and which will be replaced by new B UA. 11. How was the off -site impervious area listed above determined? Provide documentation. The offite impervious listed above includes the portion of the proposed driveway that is within the right of way. Proiects in Union Countv: Contact DEMLR Central Office staff to check if the project is located within a Threatened & Endangered Species watershed that maybe subject to more stringent stormwater requirements as per I5A NCAC 02B.0600. V. SUPPLEMENT AND O&M FORMS The applicable state stormwater management permit supplement and operation and maintenance (O&M) forms must be submitted for each BMP specified for this project. The latest versions of the forms can be downloaded from http://portal.ncdenr.org/web/wq/ws/su/bmp-manual. VI. SUBMITTAL REQUIREMENTS Only complete application packages will be accepted and reviewed by the Division of Energy, Mineral and Land Resources (DEMLR). A complete package includes all of the items listed below. A detailed application instruction sheet and BMP checklists are available from http://portal.ncdenr.org/web/wq/ws/su/statesw/forms does. The complete application package should be submitted to the appropriate DEMLR Office. (The appropriate office may be found by locating project on the interactive online map at http://portal.ncdenr.org/web/wq/ws/su/maps.) Please indicate that the following required information have been provided by initialing in the space provided for each item. All original documents MUST be signed and initialed in blue ink. Download the latest versions for each submitted application package from http:/ /portal.ncdenr.org/web/wq/ws/su/statesw/forms does. Initials 1. Original and one copy of the Stormwater Management Permit Application Form. FS 2. Original and one copy of the signed and notarized Deed Restrictions & Protective Covenants N/A Form. (if required as per Part VII below) 3. Original of the applicable Supplement Form(s) (sealed, signed and dated) and O&M FS agreement(s) for each BMP. 4. Permit application processing fee of $505 payable to NCDENR. (For an Express review, refer to FS http://www.envhelp.org/pages/onestopexpress.html for information on the Express program and the associated fees. Contact the appropriate regional office Express Permit Coordinator for additional information and to schedule the required application meeting.) 5. A detailed narrative (one to two pages) describing the stormwater treatment/management for FS 6. A USGS map identifying the site location. If the receiving stream is reported as class SA or the FS receiving stream drains to class SA waters within 1/2 mile of the site boundary, include the 1/2 mile radius on the map. 7. Sealed, signed and dated calculations (one copy). FS 8. Two sets of plans folded to 8.5" x 14" (sealed, signed, & dated), including: FS a. Development/Project name. b. Engineer and firm. c. Location map with named streets and NCSR numbers. d. Legend. e. North arrow. f. Scale. g. Revision number and dates. h. Identify all surface waters on the plans by delineating the normal pool elevation of impounded structures, the banks of streams and rivers, the MHW or NHW line of tidal waters, and any coastal wetlands landward of the MHW or NHW lines. • Delineate the vegetated buffer landward from the normal pool elevation of impounded structures, the banks of streams or rivers, and the MHW (or NHW) of tidal waters. i. Dimensioned property/project boundary with bearings & distances. j. Site Layout with all BUA identified and dimensioned. k. Existing contours, proposed contours, spot elevations, finished floor elevations. 1. Details of roads, drainage features, collection systems, and stormwater control measures. m. Wetlands delineated, or a note on the plans that none exist. (Must be delineated by a qualified person. Provide documentation of qualifications and identify the person who made the determination on the plans. n. Existing drainage (including off -site), drainage easements, pipe sizes, runoff calculations. Form SWU-101 Version Oct. 31, 2013 Page 4 of 6 p. Vegetated buffers (where required). 9. Copy of any applicable soils report with the associated SHWT elevations (Please identify FS elevations in addition to depths) as well as a map of the boring locations with the existing elevations and boring logs. Include an 8.5"x11" copy of the NRCS County Soils map with the project area clearly delineated. For projects with infiltration BMPs, the report should also include the soil type, expected infiltration rate, and the method of determining the infiltration rate. (Infiltration Devices submitted to WiRO: Schedtde a site visit for DEMLR to verify the SHWT prior to sttbntittal, (910) 796-7378.) 10. A copy of the most current property deed. Deed book: 194 Page No: 372 FS 11. For corporations and limited liability corporations (LLC): Provide documentation from the NC N/A Secretary of State or other official documentation, which supports the titles and positions held by the persons listed in Contact Information, item 1a, 2a, and/or 3a per 15A NCAC 21-1.1003(e). The corporation or LLC must be listed as an active corporation in good standing with the NC Secretary of State, otherwise the application will be returned. http: / /www.secretary.state.nc.us/Corporations/Csearch.aspx VII. DEED RESTRICTIONS AND PROTECTIVE COVENANTS For all subdivisions, outparcels, and future development, the appropriate property restrictions and protective covenants are required to be recorded prior to the sale of any lot. If lot sizes vary significantly or the proposed BUA allocations vary, a table listing each lot number, lot size, and the allowable built -upon area must be provided as an attachment to the completed and notarized deed restriction form. The appropriate deed restrictions and protective covenants forms can be downloaded from http:////12ortal.ncdenr.org/web/ir/state- stormwater-forms docs. Download the latest versions for each submittal. In the instances where the applicant is different than the property owner, it is the responsibility of the property owner to sign the deed restrictions and protective covenants form while the applicant is responsible for ensuring that the deed restrictions are recorded. By the notarized signature(s) below, the permit holder(s) certify that the recorded property restrictions and protective covenants for this project, if required, shall include all the items required in the permit and listed on the forms available on the website, that the covenants will be binding on all parties and persons claiming under them, that they will run with the land, that the required covenants cannot be changed or deleted without concurrence from the NC DEMLR, and that they will be recorded prior to the sale of any lot. VIII. CONSULTANT INFORMATION AND AUTHORIZATION Applicant: Complete this section if you wish to designate authority to another individual and/or firm (such as a consulting engineer and/or firm) so that they may provide information on your behalf for this project (such as addressing requests for additional information). Consulting Engineer:Francis Slinky, PE Consulting Firm: Timmons Group Mailing Address:5410 Trinity Road City:Raleigh State:NC Zip:27607 Phone: (919 ) 866-4505 Fax: (919 ) 859-5663 Email:frank.slinsky@timmons.com IX. PROPERTY OWNER AUTHORIZATION (if Contact Inforination, itent 2 has been filled ottt, complete this section) I, (print or type name of person listed in Contact Information, itent 2a) , certify that I own the property identified in this permit application, and thus give permission to (print or type nante of person listed in Contact Information, item 1a) with (print or type name of organization listed in Contact Information, item 1a) to develop the project as currently proposed. A copy of the lease agreement or pending property sales contract has been provided with the submittal, which indicates the party responsible for the operation and maintenance of the stormwater system. Form SWU-101 Version Oct. 31, 2013 Page 5 of 6 As the legal property owner I aclalowledge, understand, and agree by my signature below, that if my designated agent (entity listed in Contact Information, item 1) dissolves their company and/or cancels or defaults on their lease agreement, or pending sale, responsibility for compliance with the DEMLR Stormwater permit reverts back to me, the property owner. As the property owner, it is my responsibility to notify DEMLR immediately and submit a completed Name/Ownership Change Form within 30 days; otherwise I will be operating a stormwater treatment facility without a valid permit. I understand that the operation of a stormwater treatment facility without a valid permit is a violation of NC General Statue 143-215.1 and may result in appropriate enforcement action including the assessment of civil penalties of up to $25,000 per day, pursuant to NCGS 143-215.6. Signature: Date: a Notary Public for the State of . County of do hereby certify that personally appeared before me this _ day of , and acknowledge the due execution of the application for a stormwater permit. Witness my hand and official seal, SEAL My commission expires X. APPLICANT'S CERTIFICATION I, (print or hjpe Name of person listed in Contact bformation, item 1a) certify that the information included on this permit application form is, to the best of my knowledge, correct and that the project will be constructed in conformance with the approved plans, that the required deed restrictions and protective covenants will be recorded, and that the proposed project complies with the requirements of the applicable stormwater rules under 15A NCAC 2I1.1000 and any other applicable state stormwater requirements. Signature: •—)�) Date: I, rA € z� a Notary Public for the State of Jo t 'j ! County of I : " do hereby certify that ��r>� �' _' =i �` �� � , -� personally appeared before me this I�L_ dayof i§ � "-; ,and acknowledge r g the*ecution of the application for a stormwater permit. Witness my hand and official seal, ARACELY LOPEZ Notary Public, North Carolina Wake County My Commission Expires January 29, 2023 SEAL My commission expires x ; Form SWU-101 Version Oct. 31, 2013 Page 6 of 6 Environmental Maps USGS Quad Map NRCS Soil Map FEMA Flood Map U.S. DEPARTMENT OF THE INTERIOR 29- o U IS G S U.S. GEOLOGICAL SURVEY -79.2500' 35.0000' 6 60000' E 61 62 63 64 3874000"N 73 72 71 70 69 67 �-W 64 63 62 61 The National map RAEFORD QUADRANGLE NORTH CAROLINA US Topo 7.5-MINUTE SERIES 65 66 67 68 69 70 -79.1250' 71 35.0000' .......... . ..... ... . T, �A . ... .... . .... . . . ........... X, N, . ........ . ..... I ... 1-11, z I T Tf, T, s�I T,1"T," . ............ ... , 0, "I'll", '7" , , , , , I , I, I , I � I I " ... . . ... ... .. 0 T IT . .. . . . ? 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I . ...... .. . ......... ..... ..... ........... . I .... .. 7, .... ....... .. . .. I I .. . ... .............. ...... . . . ............ . . ... ..... ... 1 14 6�' 6,- S V, ... ........... �4, 4- 4 'J IT N, . .. .. I. . S 161" > 0 TII"�, s� k" lk- 41L 6,� TI, J11 I A4 Z,, T, (z T 34.8750' 60 61 62 63 64 65 66 67 _ 79.2500' Produced by the United States Geological Survey SCALE 1:24 000 0. North American Datum of 1983 (NAD83) WorLd Geodetic System of 1984 (WGS84). Projection and 1 0.5 0 KILOMETERS 1 2 1 000-meter grid:UniversaL Transverse Mercator, Zone 1 7S N 3150' 1000 500 0 METERS 1000 2000 This map is not a LegaL document. Boundaries may be generahzed for this map scaLe. Private Lands within government 157 M ILI, 1'2' 1 0.5 0 1 reservations may not be shown. Obtain permission before 18 MILS MILES entering private Lands. 1000 0 1000 2000 3000 4000 5000 6000 7000 8000 9000 10000 Imagery ..................................................... NAIP, JuLy 2016 - November 2016 FE ET Roads ......................................... U. S. Census Bureau, 2016 Names ............................................................................ GNIS, 1980 - 2019 UTM CHID AND 2019 VAIGNLTIC NORTH Hydrography ............................... NationaL Hydrography Dataset, 1899 - 2018 DECLINATIONAT CENTER OF SHEET Contours ............................................ NationaL ELevation Dataset, 2008 CONTOUR INTERVAL 5 FEET Boundaries .............. MuLtipLe sources; see metadata Me 2017 - 2018 U.S. National Grid NORTH AMERICAN VERTICAL DATUM OF 1988 100,000 - rn Square IF Wedands ................. FWS NationaL Wedands Inventory 1983 This map was produced to conform with the PU NationaL GeospatiaL Program US Topo Product Standard, 2011. A metadata Me associated with this product is draftversion 0.6.18 Gric! Zone Designation 17S 68 z NORTH A QUADRAINGLIE LOCATION 1 McCain 1 2 3 2 NichoLson Creek 3 CLi fdaLe 4 Wagram 74 5 5 Parkton - - - 6 WakuLLa 6 7 8 7 Red Springs L---L---L--J 8 Rennert ADJOINING QUADRANGLES 74 73 72 71 70 69 68 67 Mq� 65 64 62 38610"1 69 70 671 000"E 34.8750' 79.1250' ROAD CLASSIFICATION Expressway LocaL Connector �� ......................................................................................I . co co Secondary Hwy LocaL Road CD Ramp 4WD C, Interstate Route US Route State Route 0 -ca 0 Z u- W RAEFORD, NC 2i < 2019 z LY, S. DF',PAI T'1V ENT OF AGffl 'i.1LTURA SHEET NUMBER 15 I This map was compiled by U.S. Department of Agriculture, ......_.....___.......__.__ _ ..._ __.._._. _.. _...._.... ®_ r Soil Conservation Service and cooperating agencies on ",ca - : 1:24000 � �woom"Ws 1974 orthophotograph�yr obtained from U.S., Department of the Interior, GeologicaP Survey. CLU BE'Rl tkNt7) AND H00 C1C)0r4 fIl 9, NOp"Id...l CAR4;1?Im0N4 Nd:1, 15 , f KC C'l> SHEET NO.15 OF 21 National Flood Hazard Layer FI RMette 34°59'5.47"N 0 250 500 1,000 1,500 2,000 SEE FIS REPORT FOR DETAILED LEGEND AND INDEX MAP FOR FIRM PANEL LAYOUT )THEIR AREAS OF FLOOD HAZARD 0.2%Annual Chance Flood Hazard, Areas of 1%annual chance flood with average depth less than one foot or with drainage areas of less than one square mile 2'--x Future Conditions 1%Annual Chance Flood Hazard zone X Area with Reduced Flood Risk due to Levee. See Notes. Zone Area with Flood Risk due to Leveez'or�F cr No scREEN Area of Minimal Flood Hazard z'�-x Effective LOMRs OTHER AREAS Area of Undetermined Flood Hazard z'or�F rr GENERAL ---- Channel, Culvert, or Storm Sewer STRUCTURES IIIIIII Levee, Dike, or Floodwall e xos Cross Sections with 1%Annual Chance 17.5 Water Surface Elevation o- — — Coastal Transect „..,, 613. Base Flood Elevation Line (BFE) Limit of Study - Jurisdiction Boundary -- --- Coastal Transect Baseline OTHER _ Profile Baseline FEATURES Hydrographic Feature Digital Data Available N No Digital Data Available MAP PANELS Unmapped The pin displayed on the map is an approximate point selected by the user and does not represent an authoritative property location. This map complies with FEMA's standards for the use of digital flood maps if it is not void as described below. The basemap shown complies with FEMA's basemap accuracy standards The flood hazard information is derived directly from the authoritative NFHL web services provided by FEMA. This map was exported on 1,1/13/2019 at 3:25:29 PM and does not reflect changes or amendments subsequent to this date and time. The NFHL and effective information may change or become superseded by new data over time. This map image is void if the one or more of the following map elements do not appear: basemap imagery, flood zone labels, legend, scale bar, map creation date, community identifiers, FIRM panel number, and FIRM effective date. Map images for unmapped and unmodernized areas cannot be used for regulatory purposes. Property Deed 37.E 0194 0372 APPROVED FOR RECORDING TAX SUPERVISOR NORTH CAROLINA D E_E_D HOKE COUNTY THIS DEED, made this the 1 day of September, 1976, by the COUNTY OF HOKE, NORTH CAROLINA, acting.,through its Board of Commissioners, consisting of Ralph W. Barnhart, Chairman, James A. Hunt, John G. Balfour, Neil McPhatter and Thomas F. McBryde, a body politic and corporate existing under and by virtue of the laws of the State of North Carolina, and THE CITY OF RAEFORD, acting through its City Council, consisting of Crawford L. Thomas, Jr., David E. Lovette, Sam C. Morris, Graham Clark and James B. McLeod, a body politic and corporate existing under and by virtue of the laws of the State of North Carolina, parties of the first part, to the STATE OF NORTH CAROLINA, party of the second part; W I T N E S S E T H WHEREAS, the parties of the first part are now the owners in fee simple of certain lands hereinafter described upon which it is contemplated i that a National Guard armory will be constructed which will be devoted to the use of the North Carolina National Guard, or any similar or successor military organization; and WHEREAS, the parties of the first part have determined by appropriate resolution of the Board of Commissioners of the County of Hoke, North Carolina, and the City Council of Raeford, North Carolina that it would be to the public interest to convey said property to the State of North Carolina for such time as said property may be required by the State of North Carolina for military purposes, in the opinion of the North Carolina Department of Military and Veterans Affairs, or its successor, either for the use of the State of North Carolina or for the use of the United States of America under the provisions of the National Defense Facilities Act of 1950; and i WHEREAS, the State of North Carolina has agreed to accept such conveyance; R. PALMER WILLCOX NOW, THEREFORE, for and in consideration .of the premises and pursuant ATTORNEY AT LAW -I ., s RAEFORD, N. C. to Chapter 143, Section 235, of the General Statutes of North Carolina, as 0194 0373 R. F;ER WILLCOX ATTORNEY AT LAW RAEFORD. N. C. amended, the parties of the first part have bargained and.sold, and, subject to the conditions and agreements hereinafter expressed, do hereby bargain, sell and convey unto the State of North Carolina, and its successors, in fee simple, that certain tract or parcel of land situated in Hoke County, North Carolina, and more particularly described as follows: That certain parcel or tract of land lying and being about 0.8 miles west of the center of Raeford. Bound on the east by Teal Drive (S. R. No. 1210); on the north by Upchurch; on the south by Tract No. 1, Map Book 6 at Page 91, on the west by other lands of J. H. Wright and more particularly described as follows, to -wit: BEGINNING at an iron pipe in the west right-of-way line of Teal Drive (S. R. No. 1210), the northeast corner of the original tract of which this is a part, and running thence as the right-of-way of Teal Drive (S. R. No. 1210), S 3-42 W 330 feet to an iron pipe; thence as said right-of-way S 0-40 W 50 feet to an iron pipe; thence as said right-of-way S 7-14 E 29.3 feet to an iron pipe; thence as the south line of the original tract, S 88-30 W 496.13 feet to a stake; thence N 9-13 W 411.2 feet to a stake in the north line of the original tract; thence as the north line, N 88-30 E 581.23 feet to the BEGINNING, containing 5.0 acres, more or less, and being a portion of Tract No. 2-B, Map Book 6 at Page 91, Hoke County Registry. TO HAVE AND TO HOLD the aforesaid/property unto the State of North i Carolina so long as the North Carolina Depar anent of Military and Veterans Affairs, or its successor, deems that said property is required by the State of North Carolina or the United States of America for military purposes, or for any purpose set forth in the National Defense Facilities Act of 1950; and upon the condition that when the same shall be no longer required by the State of North Carolina or the United States of America, in the opinion of the North Carolina Department of Military and Veterans Affairs, or its successors, title thereto in fee simple shall revert to the County of Hoke, North Carolina, and the City of Raeford, North Carolina. IN WITNESS WHEREOF, the County of Hoke, North Carolina, has caused this instrument to be.executed in its name by its Chairman of the Board of County Commissioners, and its corporate seal to be hereto affixed, and attested to by its County Manager, all by authority of the Board of Commissioners of Hoke County duly given, and the City of Raeford has caused this instrument to be executed by its Mayor, and its corporate seal to be hereto affixed, and 0194 0374 attested to by its City Manager, all by authority of the City Council of the City of Raeford duly given, this the day and year first above written. COUNTY 0 , NORTH CAROLIN By. ph Barnhart, airman of the Board of Commissioners T. - $. Lester, Jr. , Cou t Manager l;S�� C © CITY OF ORD, NORTH CAROLIN By: ohn K . McNeill, Jr., Mayor i ATTES7�: ". -. Robert-G. Drumwrigh City Manager NORTH CAROLINA i HOKE COUNTY / Ci' ( Publ' do hereby I L� that RALPH W. e , a Notary zc, RNHART personally appeared before me this day and ac- 4; j�i�tify kriowledged that he is Chairman of the Board of County Commissioners, and that, ,''��' Jam. by `authority duly given and as the act of the corporation, the foregoing +''� • imstru>ent was signed in its name by its Chairman, sealed with its corporate seal, and attested by T. B. LESTER, JR. as its County Manager. e- WITNESS my hand and seal this / �% day of September, notarial (/1976. luIy,Comm. Expires: u Notary Public IR. PALMER 1 IILLCOX * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * NORTH CAROLINA HOKE COUNTY a Notary Public, do hereby certify that JOHN K. M FILL, JR. personalNy appeared before me this day and acknowledged that he is Mayor of the City of Raeford, and that, by authority duly given and as the act of the corporation, the foregoing instrument was signed in its name by its Mayor, sealed with its corporate seal, and attested R©'BERT G. DRUMWRIGHT as its City Manager. WITNESS my hand and notarial seal this % '7 day of September, 1976. My -Comma Expires -. No ary Public ATTORNEY AT<<Ayi{ .�� NORTH CAROLINA, Hoke County /� RAEFORD• N. C. � �� � ' The, foregog' S�or annVe J cer ificate... of - GaT.O� . 0...I�ti�e�,j.. Af:�.HAke. �ollrityt .North..... . .pAr 1 lna�... d...a?.V.......................................................................................... .................................................................................... is/are certified to be correct. Presented for re�ggistration and recorded in this office in Book ...a. ...... Page .,,J 23 ....•.• This .... lls. ....... day of ....SPBt.embar....., 197�.e-l loc c A. M..S.1..� By...... �../.............._ is� Register of Deeds: Stormwater Management Mapping t mo o of p p q p p .r i tt �v. SUBSURFACE l` �,�„� r e + I l "�,r,,.: r„�r,;,�. � ...�T�.,T...., l �. •,.. ^'' ,., �5u1 P°;' „i III! I I'I � U�'f ., r` ... ...., STORMWATER QUALITY CALCULATIONS PRE DEVELOPMENT ONSITE IMPERVIOUS SURFACES (BUILT BEFORE 1997) = 2.16± ACRES POST DEVELOPMENT ONSITE IMPERVIOUS SURFACES = 3.75± ACRES IMPERVIOUS AREA REQUIRED TO BE TREATED = 1.59±ACRES IMPERVIOUS AREA TREATED WITH STORMWATER FILTERS = 1.59 ± ACRES PRE -DEVELOPMENT STORMWATER QUANTITY CONTROL DRAINAGE PRE -DEVELOPMENT AREA COMPOSITE C Q1 Q10 Q100 (Acres) ANALYSIS POINT A 3.82 0.62 7.24 11.42 14.83 ANALYSIS POINT B 1.34 0.65 2.15 3.49 4.66 NOTE: POST -DEVELOPMENT FLOW IS LESS THAN PRE -DEVELOPMENT FLOW AT ALL ANALYSIS POINTS. REFER TO CALCULATION BOOKLET FOR ADDITIONAL INFORMATION. PRE -DEVELOPMENT IMPERVIOUS AREA AND WATER QUALITY TREATMENT EXISTING IMPERVIOUS (BUILT BEFORE 1997) EXISTING IMPERVIOUS (BUILT AFTER 1997) DRAINAGE AREA TIME OF CONCENTRATION FLOW LINE C CY) I) SC t4W ALE 1 "=30" z '0" 3Q' 60' t PRELIMINARY PLANS FOR REVIEW ONLY 0.0111C1 .0N MCA R Q SEAL 033612 GIN N CIS S LINS DO NOT USE FOR CONSTRUCTION E 0 U 0 0 � o E N w U E = z a 3 0 W ca w U N d LL N O M ax'-'co (D Z Lu J X � LL. �a 0 0 U-) �Ln rn L ID r C) OR ri d1 Lrn J w vi 0 0 0 ry F_ 0 w w U a z 0 0 m O a U U) w 0 z O U) F—I w w w Q 0 DATE 2020-DEC-01 DRAWN BY J. LEWIS DESIGNED BY F. SLINSKY CHECKED BY F. SLINSKY SCALE 1"=30' Q O �z a J 00 z ° z O Iw -� ( W a cD a �' a O x z W M 5Q z W 06 a / 00 M O N a z � I --I 0 O O O u W LL W ~ O W (D a z°O U 9 > z w W Q Q I W w O M JOB NO. 43358 SHEET NO. C3.1 o T C O O E V C O C a- O D V O o -, 0 U) o z 0 � 0) � E 0-0 >T C .o U U 0 L L Cn Q n a> C > O U U O U — X U N N N �E 6 O c c � 0 � � ai U •� O to _ O _ U U C 6 L U O >N 0 0 Cn -0 0 C _F_ 0 3 �Cn C 0 0 O Qa D 0 a N T � v MEW ME 11 FAWN SAMEM ME 0 NOW, A0 Ow AL 4 LINE AREA'A2' WIN ,.................. ... ,.... ', ' ......... '',,,,,,,�,....,�„�,,,,;n-„�,�m-�rr�„�z■a�asrars;,a;��■��s��■��■.:�■��■ate■��■�:■�■�:■ ..T.. ..... r` ...,,,,,, ., 00 t ���� � sAoo .. o00 .. o000000.. o000000� o0000000000� Hf� i t � V n t t t STORMWATER QUALITY CALCULATIONS PRE DEVELOPMENT ONSITE IMPERVIOUS SURFACES (BUILT BEFORE 1997) = 2.16± ACRES POST DEVELOPMENT ONSITE IMPERVIOUS SURFACES = 3.75± ACRES IMPERVIOUS AREA REQUIRED TO BE TREATED = 1.59±ACRES IMPERVIOUS AREA TREATED WITH STORMWATER FILTERS = 1.59 ± ACRES PRE -DEVELOPMENT STORMWATER QUANTITY CONTROL DRAINAGE PRE -DEVELOPMENT AREA COMPOSITE C Q1 Q10 Q100 (Acres) ANALYSIS POINT A 3.82 0.62 7.24 11.42 14.83 ANALYSIS POINT B 1.34 0.65 2.15 3.49 4.66 NOTE: POST -DEVELOPMENT FLOW IS LESS THAN PRE -DEVELOPMENT FLOW AT ALL ANALYSIS POINTS. REFER TO CALCULATION BOOKLET FOR ADDITIONAL INFORMATION. POST -DEVELOPMENT STORMWATER QUANTITY CONTROL DRAINAGE ANALYSIS POINT A AREA COMPOSITE C Q1 Q10 Q100 (Acres) POST -DEVELOPMENT 1.87 0.78 2.71 3.05 3.93 Al (SCM) POST -DEVELOPMENT 3.01 0.65 6.27 9.97 13.03 A2 (BYPASS) POST -DEVELOPMENT 4.88 0.70 6.40 10.11 13.19 A1+A2 (COMBINED) POST -DEVELOPMENT STORMWATER QUANTITY CONTROL DRAINAGE ANALYSIS POINT B AREA COMPOSITE C Q1 Q10 Q100 (Acres) POST -DEVELOPMENT 0.28 0.39 0.30 0.48 0.64 B1 (BYPASS) NOTE: POST -DEVELOPMENT FLOW IS LESS THAN PRE -DEVELOPMENT FLOW AT ALL ANALYSIS POINTS. REFER TO CALCULATION BOOKLET FOR ADDITIONAL INFORMATION. POST -DEVELOPMENT IMPERVIOUS AREA AND WATER QUALITY TREATMENT POST -DEVELOPMENT IMPERVIOUS (BYPASS) POST -DEVELOPMENT IMPERVIOUS TREATED IN SCM DRAINAGE AREA t TIME OF CONCENTRATION FLOW LINE DRAINAGE AREA INFORMATION Entire Site 1 4 Type of SCM Storm Filter 5 Total BUA in project (sq ft) 163453 sf 55243 sf 6 New BUA on subdivided lots (subject to permitting) (sq ft) 7 New BUA outside of subdivided lots (subject to permitting) (sf) 105934 sf 59550 sf 8 Offsite - total area (sq ft) 1565 sf 9 Offsite BUA (sq ft) 1565 sf 10 Breakdown of new BUA outside subdivided lots: - Parking (sq ft) 75177 sf 55048 sf - Sidewalk (sq ft) 4533 sf 1992 sf - Roof (sq ft) sf sf - Roadway (sq ft) sf sf - Future (sq ft) sf sf - Other, please specify in the comment box below (sq ft) 26224 sf 2510 sf 11 New infiltrating permeable pavement on subdivided lots (sq ft) 12 New infiltrating permeable pavement outside of subdivided lots (sq ft) 13 Exisitng BUA that will remain (not subject to permitting) (sq ft) 55954 sf 13451 sf 14 Existing BUA that is already permitted (sq ft) 15 Existing BUA that will be removed (sq ft) 38167 sf NOTES 1. THE NET INCREASE IN IMPERVIOUS AREA IS CAPTURED AND TREATED IN THE UNDERGROUND DETENTION WITH STORMFILTERS (DRAINAGE AREA Al). 2. FOR STORMWATER MANAGEMENT, THERE ARE TWO ANALYSIS POINTS, A AND B. ANALYSIS POINT A IS LOCATED JUST OFFSITE TO THE SOUTHWEST IN AN EXISTING DITCH. ANALYSIS POINT B IS LOCATED IN THE EXISTING ROADSIDE DITCH TO THE NORTHEAST OF THE SITE. A. THE DRAINAGE AREA TO ANALYSIS POINT A INCLUDES ONSITE DRAINAGE AS WELL AS SOME OFFSITE DRAINAGE FROM THE NORTH OF THE SITE THAT FLOWS THROUGH THE SITE AND IS ROUTED THROUGH THE PROPOSED STORM SYSTEM. DRAINAGE AREA'AV IS THE AREA THAT DRAINS TO THE UNDERGROUND DETENTION WITH STORMFILTERS AND THEN TO ANALYSIS POINT A. DRAINAGE AREA'A2' INCLUDES ONSITE AS WELL AS OFFSITE RUNOFF THAT BYPASSES THE SCM AND DRAINS TO ANALYSIS POINT A. B. THE DRAINAGE AREA TO ANALYSIS POINT B CONSISTS OF ONSITE DRAINAGE ONLY AND IS SHOWN AS DRAINAGE AREA'B'. POST DEVELOPMENT RUNOFF HAS BEEN DESIGNED TO BE LESS THAN PRE DEVELOPMENT RUNOFF FOR THE 1 YEAR, 24 HOUR STORM AT BOTH ANALYSIS POINTS. 3. THIS DRAWING IS FOR AGENCY REVIEW ONLY -NOT FOR CONSTRUCTION. 4. THERE ARE NO WETLANDS ON -SITE, AS DETERMINED BYTIMMONS GROUP. PRELIMINARY PLANS FOR REVIEW ONLY CAR �FESS/pO`�'1'y���: Q SEAL 033612 FNGIN �yN�;���`� S LINS,.�`� fit [it DO NOT USE FOR CONSTRUCTION E 0 U (n 0 0 � o E N w U E 0 LU ca w U N d LL N O M U��� Z J x <�a W � � 0 0 U-) �Ln rn 1L r O OR a; Lrn J w z O_ a U U) w 0 z O U) F-I w w Q 0 DATE 2020-DEC-01 DRAWN BY J. LEWIS DESIGNED BY F. SLINSKY CHECKED BY F. SLINSKY SCALE 1"=30' Q O �z �a J 00 z ° w O V (n N W z o cD a o z X N Q LU M > z 0 z W ��a N 3: >M N � O N ILL z � O � L LL r w z o w z � (7 o O z w U 9 w zw> LULU I --I L� J LU v , �O Ln O a M JOB NO. 43358 SHEET NO. C3.2 0 L O -v = C v C O i U v Q c 0 3 �c') oL L a 3 X C U 7 � O o � � 3 v 0 1 C T C �o E Z V � E C � v C a- O D V o V)o z 0 :20) 0-0 T C O U O_U 0 L L Q') V C •U U O U - X U N N 0 :t E O v C c � � v U •� O to -O 7 _ U � C 6 L U O j N 0 O Cn -0 v C _Z_ v 3 �Cn C 0 Qa Z3 0 a N T L C � v L- Seasonal High Water Table Report f DEPTH: SHWT# ELEVATION: 260.20 Field Book for Describin Soils} Soil Profile Descri on Worksheet fuse abbreviations from �� ... �,,_ .,, _ _ _._ rP . (I ) _ C ensis- Roots tence Horizon Depth Texture Color Redoximo hic Features I or 2 of each Structure� ... # Name Bot- Rock Fine- Moist Matrix Depletions Concentrations Grade Shape Moist Abund. to fra earth % Con- % Con- Fine + II Color V. Fine Vol. trast vol. trast Full Color Full Inch Mod. Class I Hue Val. Chr. I _ . �_/-�y �j 2 AF5 ce4_. m 'ws 3 I -mil rW �Z 2- is 563 1495(c1 6 I SHWT# ELEVATION: 260.00 .SHWT# �' ELEVATION: 259.50 SHWT#o SHWT Soil Profile Desert3tion Worksheet (use abbreviations from Field Book for Describing So n . ...... Consis- ITITITITmm Horizon Depth Texture Color Redoximorphic Features �IT(I or 2 of each) ilsy Structure tence Rcots Name Bot- Rock Fine- Moist Matrix Depletions Concentrations Grade Shape Moist Abund. torn earth _±�g , , — Fine + Inch Mod. Class Hue Val, Chr, % Full Color Con- %7 Full Color Con - Vol. �':=trast V .. ol. trast V. Fine v if 3 4 — — — .......... 5 6 . . ................. 7 8 DEPTH: ELEVATION: 261.33 ELEVATION: 261.50 SHWT#(L 56 17 ELEVATION: 262.50 GENERAL NOTES PRELIMINARY PLANS FOR REVIEW ONLY ED 1. ALL UTILITIES OR STRUCTURES NOT INDICATED FOR REMOVAL OR MODIFICATION ARE TO 0 Z/, %_ REMAIN AND BE PROTECTED FROM DAMAGE. 2. ALL WASTE MATERIAL GENERATED FROM CLEARING AND DEMOLITION ACTIVITIES SHALL BE SEAL DISPOSED OF OFF -SITE IN ACCORDANCE WITH WITH ALL APPLICABLE RULES AND REGULATIONS. 033612 CONTRACTOR SHALL SALVAGE ALL SIGNAGE, METERS, ETC. TO OWNER. COORDINATE WITH or IN INV. IN=2676 OWNER PRIOR TO DEMOLITION. SLI N1,P Q 3. BY SUBMITTING A BID, CONTRACTOR ACKNOWLEDGES THAT THE SITE HAS BEEN INVESTIGATED FIRST HEALTH OF TOE CAROLINAS, INC TO DETERMINE TYPE, SIZE AND QUANTITY OF CLEARING REQUIRED FOR CONSTRUCTION. DO NOT USE FOR CONSTRUCTION PIN: 694240801087 DB 365, PG 123 TBM r ), I / 4. ALL PAVEMENT OR CONCRETE TO BE REMOVED SHALL BE SAW CUT TO PROVIDE A STRAIGHT E 518 DIA. RE13A R AND UNIFORM JOINT WITH NEW CONSTRUCTION. ANY EXISTING PAVEMENT, SIDEWALK, CURB & 0 INV. bUT=267.31' U) N=448,296.,9� GUTTER, ETC. THAT MUST BE REMOVED TO ALLOW NEW CONSTRUCTION SHALL BE REMOVED C) cop 0 UGP___� E=�,928,924.63 AND REPAIRED PER THE SPECIFICATIONS AND DETAILS OR TO MATCH EXISTING CONDITIONS -UGP- PULLI ELEV.=268.60' rrl- E UCA T (WHETHER OR NOT SHOWN ON THE DRAWINGS TO BE REMOVED). UTILITY INSTALLATIONS MAY Lu U.9 UGP- LICATV- UTILIZE OPEN CUT OF PAVEMENTS UNLESS INDICATED OTHERWISE. TRENCH IN EXISTING 7- G_ UCATV- UG Box UCA TV- G P_ tJ6A7-'V__77-`- "" , 11 _7-----L;q7TV- G -OCATVIL- G- UCATY-�."'_ uCATV_ LICATV_ ASPHALT SHALL BE PATCHED PER PAVEMENT REPAIR DETAIL. UCA TV -G- G- < .@ UCArV--:::::: G G 4- - UGT- 7�- G 0 Lu -Fa -UGT- _UGT- Lu U UG.Tl_ Mill llll� A TV- - 5. PROTECT ALL ADJACENT PROPERTIES, THE GENERAL PUBLIC AND ALL OF THE OWNER'S N86'02'17"E UGP--�- C LICATV- - < LL co P UGP- FACILITIES. SHOULD DAMAGES OCCUR, NOTIFY ARCHITECT IMMEDIATELY. OL LL 0 JarI . . ... LP UGP wr . ..... .... illir UGP-CONSTRUCTION LIMIfSD_ 580.19' 00 UG 3: -millilillilliffillilimilill -UG v, dn mrV iiiiii Hill UGP- -=_UG IL ,,,G d 6. THE CONTRACTOR SHALL EMPLOY A QUALIFIED UTLITIY LOCATOR SERVICE TO LOCATE ALL Hill Hill INV P_ L _n t-- uGP- III (D '70 .. . .... .. . ........ . ........ . ........ illillillim iiiiiii 1_ _J7 - 11111rj7u B -UG UNDERGROUND UTILITIES (INCLUDING BUT NOT LIMITED TO ELECTRICAL, TELEPHONE, GAS, M u 11 I o" 1 11 1 11 - , 1� CABLE, FIBER OPTIC) WITHIN THE LIMITS OF CONSTRUCTION. x U) X. -a < Lu 0- e 0 B E 7. VERIFY ALL ILLUSTRATED KNOWN UNDERGROUND ELEMENTS. EXERCISE REASONABLE EFFORTS U) =j -3 TO PROTECT ANY UNKNOWN UNDERGROUND ELEMENTS. NOTIFY THE ENGINEER IMMEDIATELY O H pp U) IF UNKNOWN ELEMENTS ARE DISCOVERED THAT WOULD NECESSITATE MODIFICATION TO THE > C) G� 7-FT CHAIN LINK PROPOSED DESIGN. Lu 4-FT WOOD FENCE WITH V Ln rn PP FENCE III RAZOR Lu 8. ALL WORK SHALL BE PERFORMED IN ACCORDANCE WITH APPLICABLE LOCAL, STATE AND OSHA • REGULATIONS. 9. EXISTING MANHOLES, VALVE BOXES, VAULTS, CLEANOUTS, UTILITY POLES ETC. TO REMAIN u� WITHIN THE GRADING LIMITS SHALL BE ADJUSTED AS NEEDED TO FUNCTION PROPERTY WITH 269• THE PROPOSED FINISHED GRADES (WETHER OR NOT INDICATED TO BE MODIFIED). 0 INV IN=265 10. ANY AND ALL LANDSCAPING AND EXISTING TREES & SHRUBS TO REMAIN WHICH ARE DAMAGED B 0 DURING DEMOLITION OR CONSTRUCTION SHALL BE REPLACED BY THE CONTRACTOR UTILIZING A LICENSED LANDSCAPE CONTRACTOR AT NO ADDITIONAL COST TO THE OWNER. H F 18r'RCP Lu PARKING LOT > SHV\f'F BORING 6 POV co ELEV.: 262.50 11. THE PROJECT LIMITS ARE NOT IN ANY SPECIAL FLOOD HAZARD AREAS OR FUTURE CONDITIONS Lu Lu OUT=265.55 FLOOD HAZARD AREAS, AS SHOWN ON FEMA PANEL 3710942400J. it < 0) u 0 < - - - - - - - - - - - - X_ c') ELECTRIC-,, 0 BOX B KEY NOTES DATE IjGT > FIRE 4-FT- INVI. IN=26,4.36' D 2020-DEC-01 I ij S1 EWALK-`�l G-f-IT D FENCE REMOVE ASPHALT AND STONE BASE 0 DRAWN BY u > B rE J. LEWIS wow- 267 SIDEWALK REMOVE FENCE (SEE PLANS FOR FENCE HEIGHTS) qGP' _UCATV- B -UGP SHV\f'F BORING c UCA TV- DESIGNED BY ING 5 26,7, (3 F ELEV.: 261.50 -=G YCA TV- REMOVE CONCRETE SIDEWALK F. SLINSKY MO V GRAVEL ++++++++++++++++++ E7. +++++ T PARKING LOT L _J +++++ E (D I I -) RELOCATE LANDSCAPE BLOCK FIRE PIT (REFER TO DRAWING C2.0 M •CHECKED BY M M + +l�I B FOR NEW LOCATION OF FIRE PIT) K B +++++ F. SLINSKY 7-FT CHAIN LINKIIII+ + WOOD X 41 N3 FENCE WITH V +++++ f I-T REMOVE INDIVIDUAL TREE Z,� ::� ��l I I N� �vi I +++++ cv� 0 i i x RAZOR FENCE 't, I T • SCALE Co pp H +++++ EIII 1" 301 + +/ -PLAN PLANTER REMOVE EXISTING SIGN + �,jAREA 6�!RCP SHWT BORING 4 NORTH CAROLINA ELEV.: 261.33 W 1� V OUT=264.59r REAFORD 18" RCP F NATIONAL GUARD INV. IN=265.34' REMOVE ASPHALT PAVEMENT. STONE BASE TO REMAIN. PLANTER READINESS CENTER +%% AREA CONTAINERS TO BE REMOVED BY OWNER PRIOR TO CONSTRUCTION AR REMOVE MATERIALS UNDER STRUCTURES. pp col I FFE=268. 00 + T err /H - . + ++ N +,++ < F_ + ++ I TA // I +: REMOVE EXISTING MULCH AND TIMBER EDGING. SELECTIVELY > METAL - - - + - + Z�SIGN E cl) REMOVE CERTAIN SHRUBS UNDER THE DIRECTION OF THE OWNER. 0 NIF STORAGE + BUILDING S TA TE OF NORTH CA ROL INA + + + %+ TREE CLEARING SHWT BORING 3 + FFE=266.86 CMU CMU PIN: 694240801084 11 + ++ FLAGPOLE + rn ELEV.: 259.50 .++ BUILDING #1 BUILDING #21 DB 194, PG 372 + G REMOVE STORM SEWER 00 > _x_ FFE=268.14 \I\FFE=268.0+1-1 B PLANTER" -UGP PLANTER L AREA AREA K C,� + 1+ o < REMOVE SEWER CLEANOUT UGP- - L _77 + EM E u ur) ND UGP- UGP REMOVE LIGHT POLE & WIRES. FORCE MAIN (1) Q) CL �V N �65 SA IRELOICATE 5 SHWT . .... .. .... CuGUY PP C IVVIRE 7-FTCHAINLINK PLANTER SAN G BORING 2 FENCE WITH VRAZOR AC UNIT REMOVE METAL STORAGE BUILDING AND CONCRETE PAD. 0 LP ELEV.: 260.0 )GRINDER PUMP PLANTER WITH < H B V. OUT=263.3 LANTER WITHIIII 0 AC UNIT \S TA TION '\1 N9 B AC UNIT SEWER WET WELL CONSTRUCTION LIMITS x . ..... RIMELEV.=268.36' G) a Lu r1l) LLJ _x 777-X- > 2166 - u w SHWT BORING 1 6';, ELEV.: 260.20 66 wo 06 D,,4 APPROX. 6 DRAINFIELD 00 LINES GRAVEL & PIPES 4 A TAPPROX. 2.5'DEPTH (7) TBM ZZ 267 0 J �3 - 518"DIA. REBAR B cz 11 c-- N=447,861.06' LIJ C) E= 1, 928,926.02' u all II IIIII III IIIII millill liam 11 IlLmmilli CA iummmLUL2 Mill I] 1 110111011111111111 Ilk-Lilullllllllulllllll II 10, c, LL lildiglip illig iiiiiiiiiiiiam /m/ Ts `%,CONSTRUCTION L M iiiiiiiiiiiiiiiis "Ill 111111 EL EL EV =268. -All iiiiii ]�M�lllllllllllmLlllll 1111111 MIN Ill millillilill illimm 1111111 '01)1�1 496 Lu 0 .13' 0) ecv,4 0 U �*<?l I frcl^4 UGP S86'02'17"W ilw� EVV14 , - - - - - - - - - - - - - - - - YGT - T 0 _uGT -=LG T -60T - - -UGT- UGT UGP- UGP- - I I \ f r) 0� �\LP 0 NIF LL HOKE COUNiY'�OARD OF EDUCA TION Lu -7- 0 u 694211201021 PIN. U) DB 970, PG 863 k LP 1__q - - - - - - - - - - - - - - -- UAEmLK_j Lu -A > Lp p, Lu < 7Z Lu Ca 41P "ER Lr) IRF 0 . . ........ v .... ... ... PP\ cy) SCALE 1"=30' 00 30B NO. INV. 6UT�, .............. 43358 0 30' 60' SHEET NO. V cl. 0 0 L Design Calculations StormFilter Sizing Pre -Post Development Hydraulic Routing Outlet Protection Calculations StormFilter Supplement EZ Operations and Maintenance EZ Project: NCNG RAEFORD Calculated By: J. LEWIS Project No.: 43358 Date: 04/21 /21 Water Quality Volume (Per 9/20/2009 BMP Manual sizing is based on the Site Runoff Volume for the first inch of runoff.) Site Information Drainage Area (DA) = 1.73 Acres Impervious Area (DA) = 1.59 Acres Percent Impervious (1) = 91.9% Required Storage Volume (Water Quality) Design Storm (RD) = 1.0 inch Determine Rv Value = 0.05 + .009(1) = 0.88 in/in Water Quality Volume (WQV)= 5,509 cu. ft. 75% WQV For Contech with Underground 4,132 cu. ft. 1 of 1 Design Engineer: Date Site Information Project Name Project State Project Location Drainage Area, Ad Impervious Area, Ai Pervious Area, Ap % Impervious Runoff Coefficient, Rv Water Quality Volume Calculations Design storm rainfall depth, Rd Water quality volume, WQV Storage Component Calculations Capture 75% of WQV Pretreatment credit (estimated or calculated), %pre Mass loading calculations Mean Annual Rainfall, P Agency required % removal Percent Runoff Capture (% capture) Mean Annual Runoff,Vt Event Mean Concentration of Pollutant, EMC Annual Mass Load, Mtotal Filter System Filtration brand Cartridge height Cartridge Quantity Calculation Mass removed by pretreatment system, Mpre Mass load to filters after pretreatment, Mpassl Estimate the required filter efficiency, Efilter Mass to be captured by filters, Mfilter Maximum Cartridge Flow rate, Qcart Mass load per cartridge, Mart (Ibs) Number of Cartridges required, Nmass Maximum Treatment Capacity SUMMARY Determining Number of Cartridges for Volume -Based Design in NC JMR Blue Cells = Input 9/8/2020 Black Cells = Calculation NCNG North Carolina Raeford 1.87 ac 1.59 ac 0.28 85% 0.82=0.05+0.9*(Ai/Ad) 1.0 in 5533.9 ft3=Ad*Rv*Rd*(43560/12) 4150.5 ft3 =0.75*WQV 30% 46 in 85% 90% 229,653 ft'=P*Ad*Rv*(43560/12)*%capture 70.0 mg/I (Suggestion: Use 60 for residential, 70 for Commercial, 100 for Industrial) 1002.97 Ibs =EMC*Vt*(28.3)*(0.000001)*(2.2046) StormFilter 18 in 301 Ibs =Mtotal * %removal 702 Ibs =Mtotal - Mpre 79% =1+(%removal - 1)/(1 - %pre) 552 Ibs =Mpassl * Efilter 7.5 gpm =q * (7.5 ft2/cartridge) 36 Ibs =lookup mass load per cartridge 16=ROUNDUP(Mfilter/Mcart,0) 0.27=Nmass*(Qcart/449) Maximum Treatment Flow Rate, cfs 0.27 Cartridge Flow Rate, gpm 7.5 Number of Cartridges 16 Target Pollutant(s): TSS Media: Perlite ©2008 CONTECH Stormwater Solutions contechstormwater.com 1 of 1 ,p ENGINEEREDL TI Contech Engineered Solutions, LLC Engineer: Date Site Information Project Name Project State Project Location Round Pipe Stage Storage Table JMR 9/8/2020 NCNG - Raeford NC Raeford Enter Pipe I.D.=1 36 in. Total Volume/LF Total CMP Length= 743 ft. Enter Desired Increment = 1 ]in. 7.07 System Invert= 263.00 ft. Inc Num Water ever in. Inc Area (sq. ft.)(ft.)(n•) Hyd Rad Top Width Volume (cf) atio ElevS n ft. 1 1 0.06 0.05 0.99 41 263.08 2 2 0.15 0.11 1.37 115 263.17 3 3 0.28 0.16 1 1.66 209 263.25 4 4 0.43 0.21 1.89 319 263.33 5 5 0.59 0.26 2.07 442 263.42 6 6 0.77 0.31 2.24 575 263.50 7 7 0.97 0.35 2.37 718 263.58 8 8 1.17 0.40 2.49 869 263.67 9 9 1.38 0.44 1 2.60 1027 263.75 10 10 1.60 0.48 2.69 1190 263.83 11 11 1.83 0.52 2.76 1359 263.92 12 12 2.06 0.56 2.83 1532 264.00 13 13 2.30 0.59 2.88 1709 264.08 14 14 2.54 0.63 2.92 1889 264.17 15 15 2.79 0.66 1 2.96 2071 264.25 16 16 3.04 0.69 2.98 2255 264.33 17 17 3.28 0.72 3.00 2440 264.42 18 18 3.53 0.75 3.00 2626 264.50 19 19 3.78 0.78 3.00 2812 264.58 20 20 4.03 0.80 2.98 2997 264.67 21 1 21 4.28 0.82 1 2.96 3181 264.75 22 22 4.53 0.84 2.92 3363 264.83 23 23 4.77 0.86 2.88 3543 264.92 24 24 5.01 0.87 2.83 3719 265.00 25 25 5.24 0.89 2.76 3893 265.08 26 26 5.47 0.90 2.69 4061 265.17 27 27 5.69 0.91 2.60 4225 265.25 28 28 5.90 0.91 2.49 4383 265.33 29 29 6.10 0.91 2.37 4534 265.42 30 30 6.29 0.91 2.24 4677 265.50 31 31 6.47 0.91 2.07 4810 265.58 32 32 6.64 0.90 1.89 4933 265.67 33 33 6.79 0.89 1.66 5043 265.75 34 34 6.91 0.86 1.37 5137 265.83 35 35 7.01 0.83 0.99 5211 265.92 36 36 7.07 0.75 0.00 5252 266.00 -WQV Adjusted These results are submitted to you as a guideline only, without liability on the part of CONTECH Construction Products Inc. for accuracy or suitability to any particular application, and are subject to your verification. C \m"--'-NTECH0 ENGINEERED SOLUTIONS Volume StormFilter Outflow & Orifice Calculation Raeford, NC Input ICIlcuullted The Stormwater Management StormFilter Project Name: I NCNG - Raeford Date: 9/4/20 Contech No: 1629,800 1 By: jJMR Discharge flow rate from StormFilter: Restrictor Disc Diameter (in) 0.443 Restrictor Disc Diameter (ft) 0.037 Restrictor Disk Calibration: The Volume StormFilter restrictor disc is calibrated to flow at 7.5 gpm at 10 feet of head, or 1 gpm/sf or less for all cartridge sizes Orifice Coefficient 0.61 Area of Restrictor Disc (sf) 0.0011 Head, h (ft) 10 Flow, Q (cfs) 0.017 Flow, Q (gpm) 7.5 NCNG - Raeford Specific Data: Max. Head, h, on Cartridges (ft) 2.25 Number of cartridges 16 h 0,.07 (0,bll) 4 •o �jj(_3 2.22)(0), 0.,017cfs, 7.5GRAI During the worst -case scenario, there is 2.25 feet of head available on the orifice. Flow Rate per Cartridae: Flow, Q (cfs) 0.00-7 Flow, Q (gpm) 3oS0 = c 2 h With 2.25 of head available, each cartridge will discharge 3.5 gpm, or 0.0078 cfs. Since 3.5 gpm is less than the 1 GPM/sf flow rate of 7.5 GPM for the 18-inch cartridge, the mass loading calculations are preserved and 16 cartridges are suitable for this site. Total Unit Outflow: Flow, Q (cfs) per cartridge 0.0078 Flow, Q (cfs) total 0.1248 (Q = No. Cartridges x Flow per Cartridge) With 16 cartridges, the total StormFilter discharge outflow rate is 0.1248 cfs during the worst -case scenario. C \m"--'-NTECH0 ENGINEERED SOLUTIONS Equivalent Orifice Diameter. The Stormwater Management StormFilter The following equations back -calculate from the total worst -case StormFilter flow rate and head to determine an equivalent orifice diameter that can be used to represent the StormFilter when designed on a volume/mass basis. Total Outflow (cfs) 0.1248 Orifice Coefficent 0.61 Max. Head on cartridges (ft) 2.25 Equivalent Diameter, D (ft) 0.147 Equivalent Diameter, D (in) 1365 _ cA,12Gh G (0. 1) D _ ��2(322)h This equivalent orifice, however, it not a physical orifice. It is simply a method for accounting for the flow through the Volume StormFilter in routing calculations when required. Watershed Model SchematicHydraflowHydrographs Extension forAutodesk0 Civil 3DO2019 byAutodesk, Inc. v2019.2 1 2 4 5 rYry � 3 7 Leaend Hvd• Origin Description 1 Mod. Rational Analysis Point A Pre -Development 2 Mod. Rational Analysis Point B Pre -Development 3 Mod. Rational Analysis Point B Post -Development 4 Mod. Rational Analysis Point A Post -Development Bypass 5 Mod. Rational Analysis Point A Post -Development SCM 6 Reservoir Underground Detention 7 Combine Analysis Point A Combined Project: PrePost.gpw Wednesday, 04 / 21 / 2021 Hydraflow Table of Contents PrePost.gpw Hydraflow Hydrographs Extension for Autodesk® Civil 3D® 2019 by Autodesk, Inc. v2019.2 Wednesday, 04 / 21 / 2021 Watershed Model Schematic...................................................................................... 1 Hydrograph Return Period Recap............................................................................. 2 - Year SummaryReport......................................................................................................................... 3 HydrographReports................................................................................................................... 4 Hydrograph No. 1, Mod. Rational, Analysis Point Pre -Development ................................... 4 TR-55 Tc Worksheet........................................................................................................... 5 Hydrograph No. 2, Mod. Rational, Analysis Point B Pre -Development .................................... 6 TR-55 Tc Worksheet........................................................................................................... 7 Hydrograph No. 3, Mod. Rational, Analysis Point B Post -Development .................................. 8 TR-55 Tc Worksheet........................................................................................................... 9 Hydrograph No. 4, Mod. Rational, Analysis Point A Post -Development Bypass ................... 10 TR-55 Tc Worksheet......................................................................................................... 11 Hydrograph No. 5, Mod. Rational, Analysis Point A Post -Development SCM....................... 12 TR-55 Tc Worksheet......................................................................................................... 13 Hydrograph No. 6, Reservoir, Underground Detention.......................................................... 14 Pond Report - Underground Detention.............................................................................. 15 Hydrograph No. 7, Combine, Analysis Point A Combined ..................................................... 16 10 -Year SummaryReport ....................................................................................................................... 17 HydrographReports................................................................................................................. 18 Hydrograph No. 1, Mod. Rational, Analysis Point Pre -Development ................................. 18 Hydrograph No. 2, Mod. Rational, Analysis Point B Pre -Development .................................. 19 Hydrograph No. 3, Mod. Rational, Analysis Point B Post -Development ................................ 20 Hydrograph No. 4, Mod. Rational, Analysis Point A Post -Development Bypass ................... 21 Hydrograph No. 5, Mod. Rational, Analysis Point A Post -Development SCM....................... 22 Hydrograph No. 6, Reservoir, Underground Detention.......................................................... 23 Hydrograph No. 7, Combine, Analysis Point A Combined ..................................................... 24 100 - Year SummaryReport ....................................................................................................................... 25 HydrographReports................................................................................................................. 26 Hydrograph No. 1, Mod. Rational, Analysis Point Pre -Development ................................. 26 Hydrograph No. 2, Mod. Rational, Analysis Point B Pre -Development .................................. 27 Hydrograph No. 3, Mod. Rational, Analysis Point B Post -Development ................................ 28 Hydrograph No. 4, Mod. Rational, Analysis Point A Post -Development Bypass ................... 29 Hydrograph No. 5, Mod. Rational, Analysis Point A Post -Development SCM....................... 30 Hydrograph No. 6, Reservoir, Underground Detention.......................................................... 31 Hydrograph No. 7, Combine, Analysis Point A Combined ..................................................... 32 OFReport.................................................................................................................. 33 Hydrograph Return Period R PyFraMlydr.graphs Extension for Autodesk@ Civil 3D@ 2019 by Autodesk, Inc. v2019.2 Hyd. Hydrograph Inflow Peak Outflow (cfs) Hydrograph No. type hyd(s) Description (origin) 1 -yr 2-yr 3-yr 6 -yr 10-yr 26-yr 60-yr 100-yr 1 Mod. Rational ------ 7.240 ------- ------- ------- 11.42 ------- ------- 14.83 Analysis Point A Pre -Development 2 Mod. Rational ------ 2.152 ------- ------- ------- 3.492 ------- ------- 4.661 Analysis Point B Pre -Development 3 Mod. Rational ------ 0.299 ------- ------- ------- 0.481 ------- ------- 0.638 Analysis Point B Post -Development 4 Mod. Rational ------ 3.206 ------- ------- ------- 3.818 ------- ------- 5.510 Analysis Point A Post -Development B 5 Mod. Rational ------ 2.547 ------- ------- ------- 2.967 ------- ------- 3.691 Analysis Point A Post -Development S 6 Reservoir 5 2.435 ------- ------- ------- 2.967 ------- ------- 3.691 Underground Detention 7 Combine 4,6 5.641 ------- ------- ------- 6.785 ------- ------- 9.201 Analysis Point A Combined Proj. file: PrePost.gpw Wednesday, 04 / 21 / 2021 Hydrograph Summary Repo rlydraflowHydrographsExtension for AutodeskO Civil 3DO2019byAutodesk,Inc. v2019.2 Hyd. No. Hydrograph type (origin) Peak flow (cfs) Time interval (min) Time to Peak (min) Hyd. volume (cuft) Inflow hyd(s) Maximum elevation (ft) Total strge used (cuft) Hydrograph Description 1 Mod. Rational 7.240 1 5 6,516 ------ ------ ------ Analysis Point A Pre -Development 2 Mod. Rational 2.152 1 9 3,487 ------ ------ ------ Analysis Point B Pre -Development 3 Mod. Rational 0.299 1 8 430 ------ ------ ------ Analysis Point B Post -Development 4 Mod. Rational 3.206 1 5 10,771 ------ ------ ------ Analysis Point A Post -Development B 5 Mod. Rational 2.547 1 5 6,723 ------ ------ ------ Analysis Point A Post -Development S 6 Reservoir 2.435 1 44 6,719 5 265.76 5,032 Underground Detention 7 Combine 5.641 1 44 17,490 4,6 ------ ------ Analysis Point A Combined PrePost.gpw Return Period: 1 Year Wednesday, 04 / 21 / 2021 4 Hydrograph Report Hydraflow Hydrographs Extension for Autodesk® Civil 3D® 2019 by Autodesk, Inc. v2019.2 Wednesday, 04 / 21 / 2021 Hyd. No. 1 Analysis Point A Pre -Development Hydrograph type = Mod. Rational Peak discharge = 7.240 cfs Storm frequency = 1 yrs Time to peak = 0.08 hrs Time interval = 1 min Hyd. volume = 6,516 cuft Drainage area = 3.820 ac Runoff coeff. = 0.54* Intensity = 3.510 in/hr Tc by TR55 = 5.00 min OF Curve = RAEFORD_IDF.IDF Storm duration = 3.0 x Tc Target Q =n/a Est. Req'd Storage =n/a Composite (Area/C) _ [(0.970 x 0.95) + (0.560 x 0.60) + (2.290 x 0.35)] / 3.820 Q (cfs) 8.00 .M 4.00 rM 0.00 0.0 0.0 0.1 Hyd No. 1 Analysis Point A Pre -Development Hyd. No. 1 -- 1 Year 0.1 0.1 Q (cfs) 8.00 M 4.00 2.00 - 0.00 0.2 0.2 0.2 0.3 0.3 0.3 Time (hrs) 5 TR55 Tc Worksheet Hydraflow Hydrographs Extension for Autodesk® Civil 3D® 2019 by Autodesk, Inc. v2019.2 Hyd. No. 1 Analysis Point A Pre -Development Description A B C Totals Sheet Flow Manning's n-value = 0.150 0.011 0.011 Flow length (ft) = 27.0 0.0 0.0 Two-year 24-hr precip. (in) = 3.68 0.00 0.00 Land slope (%) = 1.48 0.00 0.00 Travel Time (min) = 3.62 + 0.00 + 0.00 = 3.62 Shallow Concentrated Flow Flow length (ft) = 0.00 0.00 0.00 Watercourse slope (%) = 0.00 0.00 0.00 Surface description = Unpaved Paved Paved Average velocity (ft/s) =0.00 0.00 0.00 Travel Time (min) = 0.00 + 0.00 + 0.00 = 0.00 Channel Flow X sectional flow area (sqft) = 12.50 0.00 0.00 Wetted perimeter (ft) = 7.00 0.00 0.00 Channel slope (%) = 1.14 0.00 0.00 Manning's n-value = 0.026 0.015 0.015 Velocity (ft/s) =9.02 0.00 0.00 Flow length (ft) ({0})700.0 0.0 0.0 Travel Time (min) = 1.29 + 0.00 + 0.00 = 1.29 Total Travel Time, Tc.............................................................................. 5.00 min A Hydrograph Report Hydraflow Hydrographs Extension for Autodesk® Civil 3D® 2019 by Autodesk, Inc. v2019.2 Wednesday, 04 / 21 / 2021 Hyd. No. 2 Analysis Point B Pre -Development Hydrograph type = Mod. Rational Peak discharge = 2.152 cfs Storm frequency = 1 yrs Time to peak = 0.15 hrs Time interval = 1 min Hyd. volume = 3,487 cuft Drainage area = 1.340 ac Runoff coeff. = 0.63* Intensity = 2.550 in/hr Tc by TR55 = 9.00 min OF Curve = RAEFORD_IDF.IDF Storm duration = 3.0 x Tc Target Q =n/a Est. Req'd Storage =n/a Composite (Area/C) _ [(0.630 x 0.95) + (0.710 x 0.35)] / 1.340 Q (cfs) 3.00 rM 1.00 Analysis Point B Pre -Development Hyd. No. 2 -- 1 Year 0.00 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 Hyd No. 2 1 Q (cfs) 3.00 2.00 1.00 0.00 1 1 Time (hrs) 7 TR55 Tc Worksheet Hydraflow Hydrographs Extension for Autodesk® Civil 3D® 2019 by Autodesk, Inc. v2019.2 Hyd. No. 2 Analysis Point B Pre -Development Description A B C Totals Sheet Flow Manning's n-value = 0.011 0.011 0.011 Flow length (ft) = 300.0 0.0 0.0 Two-year 24-hr precip. (in) = 3.68 0.00 0.00 Land slope (%) = 0.10 0.00 0.00 Travel Time (min) = 9.02 + 0.00 + 0.00 = 9.02 Shallow Concentrated Flow Flow length (ft) = 0.00 0.00 0.00 Watercourse slope (%) = 0.00 0.00 0.00 Surface description = Paved Paved Paved Average velocity (ft/s) =0.00 0.00 0.00 Travel Time (min) = 0.00 + 0.00 + 0.00 = 0.00 Channel Flow X sectional flow area (sqft) = 0.00 0.00 0.00 Wetted perimeter (ft) = 0.00 0.00 0.00 Channel slope (%) = 0.00 0.00 0.00 Manning's n-value = 0.015 0.015 0.015 Velocity (ft/s) =0.00 0.00 0.00 Flow length (ft) ({0})0.0 0.0 0.0 Travel Time (min) = 0.00 + 0.00 + 0.00 = 0.00 Total Travel Time, Tc.............................................................................. 9.00 min 8 Hydrograph Report Hydraflow Hydrographs Extension for Autodesk® Civil 3D® 2019 by Autodesk, Inc. v2019.2 Wednesday, 04 / 21 / 2021 Hyd. No. 3 Analysis Point B Post -Development Hydrograph type = Mod. Rational Peak discharge = 0.299 cfs Storm frequency = 1 yrs Time to peak = 0.13 hrs Time interval = 1 min Hyd. volume = 430 cuft Drainage area = 0.280 ac Runoff coeff. = 0.39* Intensity = 2.734 in/hr Tc by TR55 = 8.00 min OF Curve = RAEFORD_IDF.IDF Storm duration = 3.0 x Tc Target Q =n/a Est. Req'd Storage =n/a Composite (Area/C) _ [(0.020 x 0.95) + (0.260 x 0.35)] / 0.280 Q (cfs) 0.50 0.45 0.40 0.35 0.30 0.25 0.20 0.15 0.10 0.05 0 00 Analysis Point B Post -Development Hyd. No. 3 -- 1 Year Q (cfs) 0.50 0.45 0.40 0.35 0.30 0.25 0.20 0.15 0.10 0.05 0 00 0.0 0.0 0.1 0.1 0.1 0.2 0.2 0.2 0.3 0.3 0.3 0.4 0.4 0.4 0.5 0.5 0.5 Hyd No. 3 Time (hrs) TR55 Tc Worksheet Hydraflow Hydrographs Extension for Autodesk® Civil 3D® 2019 by Autodesk, Inc. v2019.2 Hyd. No. 3 Analysis Point B Post -Development Description A B C Totals Sheet Flow Manning's n-value = 0.011 0.011 0.011 Flow length (ft) = 0.0 0.0 0.0 Two-year 24-hr precip. (in) = 0.00 0.00 0.00 Land slope (%) = 0.00 0.00 0.00 Travel Time (min) = 0.00 + 0.00 + 0.00 = 0.00 Shallow Concentrated Flow Flow length (ft) = 210.00 0.00 0.00 Watercourse slope (%) = 0.10 0.00 0.00 Surface description = Unpaved Paved Paved Average velocity (ft/s) =0.51 0.00 0.00 Travel Time (min) = 6.86 + 0.00 + 0.00 = 6.86 Channel Flow X sectional flow area (sqft) = 6.00 0.00 0.00 Wetted perimeter (ft) = 8.00 0.00 0.00 Channel slope (%) = 0.10 0.00 0.00 Manning's n-value = 0.015 0.015 0.015 Velocity (ft/s) =2.59 0.00 0.00 Flow length (ft) ({0})205.0 0.0 0.0 Travel Time (min) = 1.32 + 0.00 + 0.00 = 1.32 Total Travel Time, Tc.............................................................................. 8.00 min Hydrograph Report 10 Hydraflow Hydrographs Extension for Autodesk® Civil 3D® 2019 by Autodesk, Inc. v2019.2 Hyd. No. 4 Analysis Point A Post -Development Bypass Hydrograph type = Mod. Rational Peak discharge Storm frequency = 1 yrs Time to peak Time interval = 1 min Hyd. volume Drainage area = 3.100 ac Runoff coeff. Intensity = 1.567 in/hr Tc by TR55 IDF Curve = RAEFORD_IDF.IDF Storm duration Target Q =1.750 cfs Est. Req'd Storage Composite (Area/C) _ [(1.180 x 0.95) + (0.980 x 0.60) + (0.940 x 0.35)] / 3.100 Q (cfs) 4.00 3.00 rM 1.00 0.00 Aid, I 0.0 0.2 Hyd No. 4 Analysis Point A Post -Development Bypass Hyd. No. 4 -- 1 Year 0.3 0.5 0.7 0.8 [ [ [ I U Mod. Rational Est. Storage = 7,516 cuft Wednesday, 04 / 21 / 2021 = 3.206 cfs = 0.08 hrs = 10,771 cuft = 0.66* = 5.00 min = 11.2xTc =7,516 cuft 1.0 Q (cfs) 4.00 3.00 2.00 1.00 0.00 1.2 Time (hrs) TR55 Tc Worksheet 11 Hydraflow Hydrographs Extension for Autodesk® Civil 3D® 2019 by Autodesk, Inc. v2019.2 Hyd. No. 4 Analysis Point A Post -Development Bypass Description A Sheet Flow Manning's n-value = 0.011 Flow length (ft) = 206.0 Two-year 24-hr precip. (in) = 3.68 Land slope (%) = 1.21 Travel Time (min) = 2.46 Shallow Concentrated Flow Flow length (ft) = 0.00 Watercourse slope (%) = 0.00 Surface description = Paved Average velocity (ft/s) =0.00 Travel Time (min) = 0.00 Channel Flow X sectional flow area (sqft) = 1.76 Wetted perimeter (ft) = 4.60 Channel slope (%) = 0.44 Manning's n-value = 0.015 Velocity (ft/s) =3.46 B C Totals 0.011 0.011 0.0 0.0 0.00 0.00 0.00 0.00 + 0.00 + 0.00 = 2.46 0.00 0.00 0.00 0.00 Paved Paved 0.00 0.00 + 0.00 + 0.00 = 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.015 0.015 0.00 0.00 Flow length (ft) ({0})670.0 0.0 0.0 Travel Time (min) = 3.23 + 0.00 + 0.00 Total Travel Time, Tc.............................................................................. = 3.23 5.00 min Hydrograph Report 12 Hydraflow Hydrographs Extension for Autodesk® Civil 3D® 2019 by Autodesk, Inc. v2019.2 Hyd. No. 5 Analysis Point A Post -Development SCM Hydrograph type = Mod. Rational Peak discharge Storm frequency = 1 yrs Time to peak Time interval = 1 min Hyd. volume Drainage area = 1.780 ac Runoff coeff. Intensity = 1.858 in/hr Tc by TR55 IDF Curve = RAEFORD_IDF.IDF Storm duration Target Q =1.750 cfs Est. Req'd Storage Composite (Area/C) _ [(1.000 x 0.95) + (0.590 x 0.60) + (0.190 x 0.35)] / 1.780 Q (cfs) 3.00 rM 1.00 Analysis Point A Post -Development SCM Hyd. No. 5 -- 1 Year Wednesday, 04 / 21 / 2021 = 2.547 cfs = 0.08 hrs = 6,723 cuft = 0.77* = 5.00 min = 8.8 x Tc =4,135 cuft 0.00umm'- 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 I 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 1 1 Hyd No. 5 1 [ [ [ [ I U Mod. Rational Est. Storage = 4,135 cuft Q (cfs) 3.00 2.00 1.00 0.00 1 1 Time (hrs) TR55 Tc Worksheet 13 Hydraflow Hydrographs Extension for Autodesk® Civil 3D® 2019 by Autodesk, Inc. v2019.2 Hyd. No. 5 Analysis Point A Post -Development SCM Description A Sheet Flow Manning's n-value = 0.011 Flow length (ft) = 150.0 Two-year 24-hr precip. (in) = 3.68 Land slope (%) = 0.80 Travel Time (min) = 2.25 Shallow Concentrated Flow Flow length (ft) = 0.00 Watercourse slope (%) = 0.00 Surface description = Paved Average velocity (ft/s) =0.00 Travel Time (min) = 0.00 Channel Flow X sectional flow area (sqft) = 1.76 Wetted perimeter (ft) = 4.70 Channel slope (%) = 0.48 Manning's n-value = 0.013 Velocity (ft/s) =4.11 B C Totals 0.011 0.011 0.0 0.0 0.00 0.00 0.00 0.00 + 0.00 + 0.00 = 2.25 0.00 0.00 0.00 0.00 Paved Paved 0.00 0.00 + 0.00 + 0.00 = 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.015 0.015 0.00 0.00 Flow length (ft) ({0})625.0 0.0 0.0 Travel Time (min) = 2.53 + 0.00 + 0.00 Total Travel Time, Tc.............................................................................. = 2.53 5.00 min Hydrograph Report 14 Hydraflow Hydrographs Extension for Autodesk® Civil 3D® 2019 by Autodesk, Inc. v2019.2 Wednesday, 04 / 21 / 2021 Hyd. No. 6 Underground Detention Hydrograph type = Reservoir Peak discharge = 2.435 cfs Storm frequency = 1 yrs Time to peak = 0.73 hrs Time interval = 1 min Hyd. volume = 6,719 cuft Inflow hyd. No. = 5 - Analysis Point A Post-Deve1dpm0b bh = 265.76 ft Reservoir name = Underground Detention Max. Storage = 5,032 cuft Storage Indication method used. Outflow includes exfiltration Q (cfs) 3.00 r M 1.00 Underground Detention Hyd. No. 6 -- 1 Year 0.00 0.0 1.0 2.0 3.0 4.0 5.0 6.0 7.0 8.0 9.0 10.0 11.0 Hyd No. 6 Hyd No. 5 II I = Total storage used = 5,032 cuft Q (cfs) 3.00 2.00 1.00 0.00 12.0 Time (hrs) Pond Report 15 Hydraflow Hydrographs Extension for Autodesk® Civil 3D® 2019 by Autodesk, Inc. v2019.2 Wednesday, 04 / 21 / 2021 Pond No. 1 - Underground Detention Pond Data UG Chambers -Invert elev. = 263.00 ft, Rise x Span = 3.00 x 3.00 ft, Barrel Len = 743.00 ft, No. Barrels = 1, Slope = 0.00%, Headers = No Stage / Storage Table Stage (ft) Elevation (ft) Contour area (sqft) Incr. Storage (cuft) Total storage (cuft) 0.00 263.00 n/a 0 0 0.30 263.30 n/a 273 273 0.60 263.60 n/a 475 748 0.90 263.90 n/a 578 1,326 1.20 264.20 n/a 636 1,962 1.50 264.50 n/a 665 2,627 1.80 264.80 n/a 665 3,292 2.10 265.10 n/a 636 3,928 2.40 265.40 n/a 577 4,505 2.70 265.70 n/a 475 4,980 3.00 266.00 n/a 273 5,253 Culvert / Orifice Structures [A] [B] [C] [PrfRsr] Rise (in) = 24.00 1.76 9.00 0.00 Span (in) = 24.00 1.76 22.00 0.00 No. Barrels = 1 1 1 0 Invert El. (ft) = 263.00 263.00 265.25 0.00 Length (ft) = 20.00 1.00 1.00 0.00 Slope (%) = 0.50 0.50 0.00 n/a N-Value = .013 .013 .013 n/a Orifice Coeff. = 0.60 0.60 0.60 0.60 Multi -Stage = n/a Yes Yes No Stage (ft) 3.00 NM m 0.00 " ' 0.00 0.50 ------------------ Total Q Weir Structures [A] [B] [C] [D] Crest Len (ft) = 16.00 0.00 0.00 0.00 Crest El. (ft) = 266.00 0.00 0.00 0.00 Weir Coeff. = 3.33 3.33 3.33 3.33 Weir Type = 1 --- --- --- Multi-Stage = Yes No No No Exfil.(in/hr) = 0.500 (by Wet area) TW Elev. (ft) = 0.00 Note: Culvert/Orifice outflows are analyzed under inlet (ic) and outlet (oc) control. Weir risers checked for orifice conditions (ic) and submergence (s). Stage / Discharge 1.00 1.50 2.00 2.50 3.00 3.50 4.00 4.50 Elev (ft) 266.00 265.00 264.00 1 263.00 5.00 Discharge (cfs) PoFtl°No. 1 - Underground Detention Hydraflow Hydrographs Extension for Autodesk® Civil 3D@ 2019 by Autodesk, Inc. v2019.2 9.0 x 22.0 in orifice T j A 3.00 2.00 1.00 L 0.00 Stage (ft) Elev. 263.00 100-yr 10-yr 1-yr Inflow hydrograph = 5. Mod. Rational - Analysis Point A Post -Development SCM Project: PrePost.gpw I Wednesday, 04 / 21 / 2021 1 16 Hydrograph Report Hydraflow Hydrographs Extension for Autodesk® Civil 3D® 2019 by Autodesk, Inc. v2019.2 Wednesday, 04 / 21 / 2021 Hyd. No. 7 Analysis Point A Combined Hydrograph type = Combine Peak discharge = 5.641 cfs Storm frequency = 1 yrs Time to peak = 0.73 hrs Time interval = 1 min Hyd. volume = 17,490 cuft Inflow hyds. = 4, 6 Contrib. drain. area = 3.100 ac Analysis Point A Combined Q (cfs) Hyd. No. 7 -- 1 Year Q (cfs) 6.00 6.00 5.00 5.00 4.00 4.00 3.00 3.00 2.00 2.00 1.00 1.00 0.00 L 0.00 0.0 1.0 2.0 3.0 4.0 5.0 6.0 7.0 8.0 9.0 10.0 11.0 Time (hrs) Hyd No. 7 Hyd No. 4 Hyd No. 6 17 Hydrograph Summary Repo rlydraflowHydrographsExtension for AutodeskO Civil 3DO2019byAutodesk,Inc. v2019.2 Hyd. No. Hydrograph type (origin) Peak flow (cfs) Time interval (min) Time to Peak (min) Hyd. volume (cuft) Inflow hyd(s) Maximum elevation (ft) Total strge used (cuft) Hydrograph Description 1 Mod. Rational 11.42 1 5 10,278 ------ ------ ------ Analysis Point A Pre -Development 2 Mod. Rational 3.492 1 9 5,657 ------ ------ ------ Analysis Point B Pre -Development 3 Mod. Rational 0.481 1 8 693 ------ ------ ------ Analysis Point B Post -Development 4 Mod. Rational 3.818 1 5 21,533 ------ ------ ------ Analysis Point A Post -Development B 5 Mod. Rational 2.967 1 5 13,529 ------ ------ ------ Analysis Point A Post -Development S 6 Reservoir 2.967 1 60 13,524 5 265.83 5,102 Underground Detention 7 Combine 6.785 1 60 35,057 4,6 ------ ------ Analysis Point A Combined PrePost.gpw Return Period: 10 Year Wednesday, 04 / 21 / 2021 18 Hydrograph Report Hydraflow Hydrographs Extension for Autodesk® Civil 3D® 2019 by Autodesk, Inc. v2019.2 Wednesday, 04 / 21 / 2021 Hyd. No. 1 Analysis Point A Pre -Development Hydrograph type = Mod. Rational Peak discharge = 11.42 cfs Storm frequency = 10 yrs Time to peak = 0.08 hrs Time interval = 1 min Hyd. volume = 10,278 cuft Drainage area = 3.820 ac Runoff coeff. = 0.54* Intensity = 5.536 in/hr Tc by TR55 = 5.00 min OF Curve = RAEFORD_IDF.IDF Storm duration = 3.0 x Tc Target Q =n/a Est. Req'd Storage =n/a Composite (Area/C) _ [(0.970 x 0.95) + (0.560 x 0.60) + (2.290 x 0.35)] / 3.820 Q (cfs) 12.00 10.00 91011111 .M 4.00 rM 0.00 0.0 0.0 0.1 Hyd No. 1 Analysis Point A Pre -Development Hyd. No. 1 -- 10 Year 0.1 0.1 Q (cfs) 12.00 10.00 M M 4.00 2.00 - 0.00 0.2 0.2 0.2 0.3 0.3 0.3 Time (hrs) 19 Hydrograph Report Hydraflow Hydrographs Extension for Autodesk® Civil 3D® 2019 by Autodesk, Inc. v2019.2 Wednesday, 04 / 21 / 2021 Hyd. No. 2 Analysis Point B Pre -Development Hydrograph type = Mod. Rational Peak discharge = 3.492 cfs Storm frequency = 10 yrs Time to peak = 0.15 hrs Time interval = 1 min Hyd. volume = 5,657 cuft Drainage area = 1.340 ac Runoff coeff. = 0.63* Intensity = 4.136 in/hr Tc by TR55 = 9.00 min OF Curve = RAEFORD_IDF.IDF Storm duration = 3.0 x Tc Target Q =n/a Est. Req'd Storage =n/a Composite (Area/C) _ [(0.630 x 0.95) + (0.710 x 0.35)] / 1.340 Q (cfs) 4.00 3.00 rM 1.00 Analysis Point B Pre -Development Hyd. No. 2 -- 10 Year 0.00 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 Hyd No. 2 1 Q (cfs) 4.00 3.00 2.00 1.00 0.00 1 1 Time (hrs) 20 Hydrograph Report Hydraflow Hydrographs Extension for Autodesk® Civil 3D® 2019 by Autodesk, Inc. v2019.2 Wednesday, 04 / 21 / 2021 Hyd. No. 3 Analysis Point B Post -Development Hydrograph type = Mod. Rational Peak discharge = 0.481 cfs Storm frequency = 10 yrs Time to peak = 0.13 hrs Time interval = 1 min Hyd. volume = 693 cuft Drainage area = 0.280 ac Runoff coeff. = 0.39* Intensity = 4.408 in/hr Tc by TR55 = 8.00 min OF Curve = RAEFORD_IDF.IDF Storm duration = 3.0 x Tc Target Q =n/a Est. Req'd Storage =n/a Composite (Area/C) _ [(0.020 x 0.95) + (0.260 x 0.35)] / 0.280 Q (cfs) 0.50 0.45 0.40 0.35 0.30 0.25 0.20 0.15 0.10 0.05 0 00 Analysis Point B Post -Development Hyd. No. 3 -- 10 Year Q (cfs) 0.50 0.45 0.40 0.35 0.30 0.25 0.20 0.15 0.10 0.05 0 00 0.0 0.0 0.1 0.1 0.1 0.2 0.2 0.2 0.3 0.3 0.3 0.4 0.4 0.4 0.5 0.5 0.5 Hyd No. 3 Time (hrs) Hydrograph Report 21 Hydraflow Hydrographs Extension for Autodesk® Civil 3D® 2019 by Autodesk, Inc. v2019.2 Hyd. No. 4 Analysis Point A Post -Development Bypass Hydrograph type = Mod. Rational Peak discharge Storm frequency = 10 yrs Time to peak Time interval = 1 min Hyd. volume Drainage area = 3.100 ac Runoff coeff. Intensity = 1.866 in/hr Tc by TR55 IDF Curve = RAEFORD_IDF.IDF Storm duration Target Q =1.900 cfs Est. Req'd Storage Composite (Area/C) _ [(1.180 x 0.95) + (0.980 x 0.60) + (0.940 x 0.35)] / 3.100 Q (cfs) 4.00 3.00 Non 1.00 0.00 0.0 0.2 Hyd No. 4 Analysis Point A Post -Development Bypass Hyd. No. 4 -- 10 Year Wednesday, 04 / 21 / 2021 = 3.818 cfs = 0.08 hrs = 21,533 cuft = 0.66* = 5.00 min = 18.8 x Tc =15, 866 cuft till I,, "Oil 0.3 0.5 0.7 0.8 1.0 1.2 1.3 1.5 [ [ I U Mod. Rational Est. Storage = 15,866 cuft Q (cfs) - 4.00 - 3.00 - 2.00 - 1.00 - 0.00 1.7 Time (hrs) Hydrograph Report 22 Hydraflow Hydrographs Extension for Autodesk® Civil 3D® 2019 by Autodesk, Inc. v2019.2 Hyd. No. 5 Analysis Point A Post -Development SCM Hydrograph type = Mod. Rational Peak discharge Storm frequency = 10 yrs Time to peak Time interval = 1 min Hyd. volume Drainage area = 1.780 ac Runoff coeff. Intensity = 2.165 in/hr Tc by TR55 IDF Curve = RAEFORD_IDF.IDF Storm duration Target Q =1.900 cfs Est. Req'd Storage Composite (Area/C) _ [(1.000 x 0.95) + (0.590 x 0.60) + (0.190 x 0.35)] / 1.780 Q (cfs) 3.00 Non 1.00 0.00 0.0 0.2 Hyd No. 5 Analysis Point A Post -Development SCM Hyd. No. 5 -- 10 Year Wednesday, 04 / 21 / 2021 = 2.967 cfs = 0.08 hrs = 13,529 cuft = 0.77* = 5.00 min = 15.2 x Tc =8,880 cuft 000 0100001111 I 11100 0 000 0010011110000 00 10 1000 00111001111000 1111 11100000 0.3 0.5 0.7 0.8 1.0 1.2 1.3 I U Mod. Rational Est. Storage = 8,880 cuft Q (cfs) - 3.00 - 2.00 - 1.00 0.00 1.5 Time (hrs) Hydrograph Report 23 Hydraflow Hydrographs Extension for Autodesk® Civil 3D® 2019 by Autodesk, Inc. v2019.2 Wednesday, 04 / 21 / 2021 Hyd. No. 6 Underground Detention Hydrograph type = Reservoir Peak discharge = 2.967 cfs Storm frequency = 10 yrs Time to peak = 1.00 hrs Time interval = 1 min Hyd. volume = 13,524 cuft Inflow hyd. No. = 5 - Analysis Point A Post-Deve1dpm0b bh = 265.83 ft Reservoir name = Underground Detention Max. Storage = 5,102 cuft Storage Indication method used. Outflow includes exfiltration Underground Detention Q (cfs) Hyd. No. 6 -- 10 Year Q (cfs) 3.00 3.00 2.00 2.00 1.00 1.00 dd�uwm nnn������wu���nnn 0.00 0.00 0.0 1.0 2.0 3.0 4.0 5.0 6.0 7.0 8.0 9.0 10.0 11.0 12.0 13.0 Time (hrs) Hyd No. 6 Hyd No. 5 II I I � I LIJ Total storage used = 5,102 cult Hydrograph Report 24 Hydraflow Hydrographs Extension for Autodesk® Civil 3D® 2019 by Autodesk, Inc. v2019.2 Wednesday, 04 / 21 / 2021 Hyd. No. 7 Analysis Point A Combined Hydrograph type = Combine Peak discharge = 6.785 cfs Storm frequency = 10 yrs Time to peak = 1.00 hrs Time interval = 1 min Hyd. volume = 35,057 cuft Inflow hyds. = 4, 6 Contrib. drain. area = 3.100 ac Q (cfs) 7.00 . Me 5.00 3.00 1.00 Analysis Point A Combined Hyd. No. 7 -- 10 Year d Q (cfs) 7.00 . We 5.00 4.00 3.00 2.00 1.00 0.00 0.00 0.0 1.0 2.0 3.0 4.0 5.0 6.0 7.0 8.0 9.0 10.0 11.0 Time (hrs) Hyd No. 7 Hyd No. 4 Hyd No. 6 25 Hydrograph Summary Repo rlydraflowHydrographsExtension for AutodeskO Civil 3DO2019byAutodesk,Inc. v2019.2 Hyd. No. Hydrograph type (origin) Peak flow (cfs) Time interval (min) Time to Peak (min) Hyd. volume (cuft) Inflow hyd(s) Maximum elevation (ft) Total strge used (cuft) Hydrograph Description 1 Mod. Rational 14.83 1 5 13,347 ------ ------ ------ Analysis Point A Pre -Development 2 Mod. Rational 4.661 1 9 7,550 ------ ------ ------ Analysis Point B Pre -Development 3 Mod. Rational 0.638 1 8 919 ------ ------ ------ Analysis Point B Post -Development 4 Mod. Rational 5.510 1 5 32,729 ------ ------ ------ Analysis Point A Post -Development B 5 Mod. Rational 3.691 1 5 21,925 ------ ------ ------ Analysis Point A Post -Development S 6 Reservoir 3.691 1 53 21,920 5 265.93 5,190 Underground Detention 7 Combine 9.201 1 53 54,648 4,6 ------ ------ Analysis Point A Combined PrePost.gpw Return Period: 100 Year Wednesday, 04 / 21 / 2021 26 Hydrograph Report Hydraflow Hydrographs Extension for Autodesk® Civil 3D® 2019 by Autodesk, Inc. v2019.2 Wednesday, 04 / 21 / 2021 Hyd. No. 1 Analysis Point A Pre -Development Hydrograph type = Mod. Rational Peak discharge = 14.83 cfs Storm frequency = 100 yrs Time to peak = 0.08 hrs Time interval = 1 min Hyd. volume = 13,347 cuft Drainage area = 3.820 ac Runoff coeff. = 0.54* Intensity = 7.189 in/hr Tc by TR55 = 5.00 min OF Curve = RAEFORD_IDF.IDF Storm duration = 3.0 x Tc Target Q =n/a Est. Req'd Storage =n/a Composite (Area/C) _ [(0.970 x 0.95) + (0.560 x 0.60) + (2.290 x 0.35)] / 3.820 Q (cfs) 15.00 12.00 3.00 0.00 0.0 0.0 0.1 Hyd No. 1 Analysis Point A Pre -Development Hyd. No. 1 -- 100 Year 0.1 0.1 Q (cfs) 15.00 12.00 . We 3.00 - 0.00 0.2 0.2 0.2 0.3 0.3 0.3 Time (hrs) 27 Hydrograph Report Hydraflow Hydrographs Extension for Autodesk® Civil 3D® 2019 by Autodesk, Inc. v2019.2 Wednesday, 04 / 21 / 2021 Hyd. No. 2 Analysis Point B Pre -Development Hydrograph type = Mod. Rational Peak discharge = 4.661 cfs Storm frequency = 100 yrs Time to peak = 0.15 hrs Time interval = 1 min Hyd. volume = 7,550 cuft Drainage area = 1.340 ac Runoff coeff. = 0.63* Intensity = 5.521 in/hr Tc by TR55 = 9.00 min OF Curve = RAEFORD_IDF.IDF Storm duration = 3.0 x Tc Target Q =n/a Est. Req'd Storage =n/a Composite (Area/C) _ [(0.630 x 0.95) + (0.710 x 0.35)] / 1.340 Q (cfs) 5.00 4.00 3.00 R 11 1.00 Analysis Point B Pre -Development Hyd. No. 2 -- 100 Year 0.00 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 Hyd No. 2 1 Q (cfs) 5.00 4.00 3.00 2.00 1.00 0.00 1 1 Time (hrs) 28 Hydrograph Report Hydraflow Hydrographs Extension for Autodesk® Civil 3D® 2019 by Autodesk, Inc. v2019.2 Wednesday, 04 / 21 / 2021 Hyd. No. 3 Analysis Point B Post -Development Hydrograph type = Mod. Rational Peak discharge = 0.638 cfs Storm frequency = 100 yrs Time to peak = 0.13 hrs Time interval = 1 min Hyd. volume = 919 cuft Drainage area = 0.280 ac Runoff coeff. = 0.39* Intensity = 5.843 in/hr Tc by TR55 = 8.00 min OF Curve = RAEFORD_IDF.IDF Storm duration = 3.0 x Tc Target Q =n/a Est. Req'd Storage =n/a Composite (Area/C) _ [(0.020 x 0.95) + (0.260 x 0.35)] / 0.280 Q (cfs) 1.00 0.90 0.80 0.70 0.60 0.50 0.40 0.30 0.20 Analysis Point B Post -Development Hyd. No. 3 -- 100 Year Q (cfs) 1.00 0.90 0.80 0.70 0.60 0.50 0.40 0.30 0.20 0.0 0.0 0.1 0.1 0.1 0.2 0.2 0.2 0.3 0.3 0.3 0.4 0.4 0.4 0.5 0.5 0.5 Hyd No. 3 Time (hrs) 29 Hydrograph Report Hydraflow Hydrographs Extension for Autodesk® Civil 3D® 2019 by Autodesk, Inc. v2019.2 Wednesday, 04 / 21 / 2021 Hyd. No. 4 Analysis Point A Post -Development Bypass Hydrograph type = Mod. Rational Peak discharge = 5.510 cfs Storm frequency = 100 yrs Time to peak = 0.08 hrs Time interval = 1 min Hyd. volume = 32,729 cuft Drainage area = 3.100 ac Runoff coeff. = 0.66* Intensity = 2.693 in/hr Tc by TR55 = 5.00 min IDF Curve = RAEFORD_IDF.IDF Storm duration = 19.8 x Tc Target Q =2.500 cfs Est. Req'd Storage =24,895 cuft Composite (Area/C) _ [(1.180 x 0.95) + (0.980 x 0.60) + (0.940 x 0.35)] / 3.100 Q (cfs) 6.00 5.00 4.00 3.00 I'm 1.00 0.00 0.0 0.2 0.3 Hyd No. 4 Analysis Point A Post -Development Bypass Hyd. No. 4 -- 100 Year 0.5 0.7 0.8 1.0 1.2 1.3 1.5 1.7 [ [ [ [ I U Mod. Rational Est. Storage = 24,895 cuft Q (cfs) - 6.00 - 5.00 - 4.00 - 3.00 - 2.00 - 1.00 0.00 1.8 Time (hrs) Hydrograph Report 30 Hydraflow Hydrographs Extension for Autodesk® Civil 3D® 2019 by Autodesk, Inc. v2019.2 Hyd. No. 5 Analysis Point A Post -Development SCM Hydrograph type = Mod. Rational Peak discharge Storm frequency = 100 yrs Time to peak Time interval = 1 min Hyd. volume Drainage area = 1.780 ac Runoff coeff. Intensity = 2.693 in/hr Tc by TR55 IDF Curve = RAEFORD_IDF.IDF Storm duration Target Q =2.500 cfs Est. Req'd Storage Composite (Area/C) _ [(1.000 x 0.95) + (0.590 x 0.60) + (0.190 x 0.35)] / 1.780 Q (cfs) 4.00 3.00 rM 1.00 0.00 11 0.0 0.2 Hyd No. 5 Analysis Point A Post -Development SCM Hyd. No. 5 -- 100 Year 0.3 0.5 0.7 0.8 1.0 1.2 1.3 [ [ [ [ I U Mod. Rational Est. Storage = 14,084 cuft Wednesday, 04 / 21 / 2021 = 3.691 cfs = 0.08 hrs = 21,925 cuft = 0.77* = 5.00 min = 19.8 x Tc =14, 084 cuft 1.5 1.7 Q (cfs) 4.00 3.00 2.00 1.00 0.00 1.8 Time (hrs) Hydrograph Report 31 Hydraflow Hydrographs Extension for Autodesk® Civil 3D® 2019 by Autodesk, Inc. v2019.2 Wednesday, 04 / 21 / 2021 Hyd. No. 6 Underground Detention Hydrograph type = Reservoir Peak discharge = 3.691 cfs Storm frequency = 100 yrs Time to peak = 0.88 hrs Time interval = 1 min Hyd. volume = 21,920 cuft Inflow hyd. No. = 5 - Analysis Point A Post-Deve1dpm0b bh = 265.93 ft Reservoir name = Underground Detention Max. Storage = 5,190 cuft Storage Indication method used. Outflow includes exfiltration Underground Detention Q (cfs) Hyd. No. 6 -- 100 Year Q (cfs) 4.00 4.00 3.00 3.00 2.00 2.00 1.00 1.00 0.00 emu' 0.00 0.0 1.0 2.0 3.0 4.0 5.0 6.0 7.0 8.0 9.0 10.0 11.0 12.0 13.0 Time (hrs) Hyd No. 6 Hyd No. 5 II I I � I LIJ Total storage used = 5,190 cult 32 Hydrograph Report Hydraflow Hydrographs Extension for Autodesk® Civil 3D® 2019 by Autodesk, Inc. v2019.2 Wednesday, 04 / 21 / 2021 Hyd. No. 7 Analysis Point A Combined Hydrograph type = Combine Peak discharge = 9.201 cfs Storm frequency = 100 yrs Time to peak = 0.88 hrs Time interval = 1 min Hyd. volume = 54,648 cuft Inflow hyds. = 4, 6 Contrib. drain. area = 3.100 ac Analysis Point A Combined 33 Hydraflow Rainfall Report Hydraflow Hydrographs Extension for Autodesk0 Civil 3DO 2019 by Autodesk, Inc. v2019.2 Wednesday, 04 / 21 / 2021 Return Period Intensity -Duration -Frequency Equation Coefficients (FHA) (Yrs) B D E (N/A) 1 67.0102 12.7000 0.8880 -------- 2 81.2179 13.2000 0.8886 -------- 3 0.0000 0.0000 0.0000 -------- 5 0.0000 0.0000 0.0000 -------- 10 77.9984 12.3000 0.8000 -------- 25 68.9087 11.0000 0.7384 -------- 50 65.6289 10.4000 0.7043 -------- 100 58.0693 9.2000 0.6556 -------- File name: RAEFORD IDF.IDF Intensity = B / (Tc + D)^E Return Period Intensity Values (in/hr) (Yrs) 6 min 10 16 20 26 30 36 40 46 60 66 60 1 5.22 4.19 3.51 3.03 2.67 2.39 2.17 1.98 1.83 1.70 1.59 1.49 2 6.17 4.97 4.18 3.61 3.19 2.86 2.59 2.38 2.19 2.04 1.91 1.79 3 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 5 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 10 7.97 6.51 5.54 4.84 4.31 3.90 3.57 3.29 3.06 2.86 2.69 2.54 25 8.89 7.28 6.22 5.46 4.89 4.44 4.08 3.78 3.53 3.31 3.12 2.96 50 9.57 7.85 6.72 5.93 5.32 4.85 4.47 4.15 3.88 3.65 3.45 3.28 100 10.20 8.37 7.19 6.36 5.73 5.24 4.84 4.51 4.24 4.00 3.79 3.61 Tc = time in minutes. Values may exceed 60. Precip. file name: Sample.pcp Storm Rainfall Precipitation Table (in) Distribution 1-yr 2-yr 3-yr 6-yr 10-yr 26-yr 60-yr 100-yr SCS 24-hour 3.04 3.68 0.00 4.40 5.44 6.52 7.39 8.28 SCS 6-Hr 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 Huff-1 st 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 Huff-2nd 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 Huff-3rd 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 Huff-4th 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 Huff-Indy 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 Custom 0.00 0.00 0.00 4.40 0.00 0.00 0.00 0.00 NCNG Raeford Raeford. NC RIPRAP A Pipe Diameter Upper Invert: Lower Invert: Pipe Length: Pipe Slope: Pipe Material: Q10 = Qfull = Vfull = Dissipator Dimensions * 30.00 in 262.05 262.00 11.00 ft 0.005 RCP 32.42 cfs 27.70 cfs 5.64 fps Zone = Stone Filling Class = Entry Width ( 3 X Do ) = Length ( 6 X Do ) = Width (La + Do) = Min. Thickness = Stone Diameter (D50)= 11/17/20 43358 T I IMI S' P TO iJ. bL5.1-'p YA A C I H 1. V� CP 1 P I P M OUVC'.Il. ON C: 0.91 i-10 (in/hr): 7.97 A (ac): 4.47 Discharge: 32.42 cfs Q10/Qfull = 1.17 V/Vfull = FULL V = 6.60 fps 2 B 7.5 ft 15.0 ft 17.5 ft 22 inches 6 inches All units are in feet " Dissipator pad designed for full flow of pipe Rip Rap Calcs 11/17/2020 Page 1 of 1 SUPPLEMENT-EZ COVER PAGE fOk I certify, under penalty of law that this Supplement-EZ form and all supporting information were prepared under my direction or supervision; that the information provided in the form is, to the best of my knowledge and belief, true, accurate, and complete; and that the engineering plans, specifications, operation and maintenance agreements and other supporting information are consistent with the informafion provided here. ��►v i p Signatureof Designe"......................................................__....................._........,-.�._...... 3n -0 Date DRAINAGE AREAS ............................................................................................................................................................................................................................................................................ 1 Is this a high density project? Yes 2 If so, number of drainage areas/SCMs 1 Is all/part of this project subject to previous rule 3 versions? No Mai aI.2LP.Ep. DRAINAGE AREA INFORMATION��������������������� Entire Site 1��������� 4 Type of SCM StormFilter 5 o T tal BUA in project (sq ft) 163453 sf 69261 sf New BUA on subdivided lots (subject to 6 permitting).(N ft) .... New BUA outside of subdivided lots (subject to 7 ermittinq) (sq 105934 sf 58950 sf 8 Offsite - total area (sq ft) 1565 sf 9 Offsite BUA (sq ft) 1565 sf 10 Breakdown of new BUA outside subdivided lots: Parking„ (sq ft) 75177 sf 54448 sf Sidewalk (sq ft) 4533 sf 1992 sf Roof (sq ft) sf sf .. Roadway (sq ft).. sf .... sf Future (sq ft) sf .... sf .. Other, please specify in the comment box below (sq ft 26224 sf 2510 sf New infiltrating permeable pavement on 11 subdivided lots (sq ft) New infiltrating permeable pavement outside of 12 subdivided lots s ft Exisitng BUA that will remain (not subject to 13 permitting) (sq ft) 55954 sf 10311 sf 14 Existing BUA that is already permitted (sq ft) 15 Existing BUA that will be removed (sq ft) 38167 sf„ 16 Percent BUA 75.0% 89.7% 17 Design storm (inches) 1 in 18 Design volume of SCM (cu ft) 4151 cf Simple Method, treating required 1.59 AC of impervious, with 25% reduction for 19 Calculation method for design volume �������������������������� �INFORMATION .... ...... ...... ....�� StormFilters ADDITIONAL �Please use this space to provide any additional information about the 20 drainage a rea(s) Other BUA included as curb and gutter, stone landscaping, concrete mow strip along fence. STORMFILTER 1 ..............................................................................................................................................................................1................................... .re a...n number r a it area g 2 Design volume of SCM(cu�ft)����������������������������������������������������� GENERALIMDC FROM102HII�110501I� II�II�I III Is the SCM sized to treat the SW from all surfaces at build- 3 out? Yes ..................................................................................................................................................................................................................................................................................................................................... 4 Is the SCM located away from contaminated soils? Yes ..................................................................................................................................................................................................................................................................................................................................... 5 What are the side slopes of the SCM (H:V)? N/A oes the SCM have retaining walls, gabion walls or other Does 6 engineered side slopes? No ..................................................................................................................................................................................................................................................................................................................................... Are the inlets, outlets, and receiving stream protected from 7 erosion (10-year storm)? Yes ..................................................................................................................................................................................................................................................................................................................................... Is there an overflow or bypass for inflow volume in excess 8 of the design volume? Yes ..................................................................................................................................................................................................................................................................................................................................... What is the method for dewatering the SCM for 9 maintenance? Drawdown Orifice ..................................................................................................................................................................................................................................................................................................................................... If applicable, will the SCM be cleaned out after 10 construction? Yes Does oes the maintenance access comply with General MDC 11 (8)? Yes Does oes the drainage easement comply with General MDC 12 (9)? No ..................................................................................................................................................................................................................................................................................................................................... If the SCM is on a single family lot, does (will?) the plat 13 comply with General MDC (10)? ..................................................................................................................................................................................................................................................................................................................................... Is there an O&M Agreement that complies with General 14 MDC (11)? Yes ..................................................................................................................................................................................................................................................................................................................................... Is there an O&M Plan that complies with General MDC 15 (12)? Yes ..................................................................................................................................................................................................................................................................................................................................... 16 Does the SCM follow the device specific MDC? Yes 17 Was the SCM designed by an NC licensed professional? Yes TO ��� M IFIF L ET DC FROM�THE TOR A�T��� R DESIGN A UAL 18 Design volume from the drainage area (cubic feet) 4151 cf 19 ..................................................................................................................................................................................................................................................................................................................................... Is an upstream closed detention used? Yes 20 Volume of the upslope closed detenion system (cubic feet) 4225 cf ..................................................................................................................................................................................................................................................................................................................................... Percent of the design volume contained in the upslope 21 closed detention system (%) 102% ..................................................................................................................................................................................................................................................................................................................................... 22 N umber of cartridges 16 ..................................................................................................................................................................................................................................................................................................................................... 23 Cartridge height (inches) 18 in ..................................................................................................................................................................................................................................................................................................................................... 24 SHWT elevation (fmsl) 260.2 ..................................................................................................................................................................................................................................................................................................................................... 25 Elevation of bottom of Storm Filter vault (fmsl) 262.5 ..................................................................................................................................................................................................................................................................................................................................... 26 ..................................................................................................................................................................................................................................................................................................................................... Clearance from the SHWT (feet) 2.5 ft 27 Storm Filter Media Flow Rate (GPM/ft2 of Media Surface) 1 gpm/sf ..................................................................................................................................................................................................................................................................................................................................... 28 Does the system includes a sediment sump? No ..................................................................................................................................................................................................................................................................................................................................... 29 If yes, the diameter of the sump (feet) N/A 30 If yes, the depth of the sump (feet) N/A ..................................................................................................................................................................................................................................................................................................................................... 31 Time to drain the sump (hours) N/A ..................................................................................................................................................................................................................................................................................................................................... 32 Time to drain the Storm Filter (hours) 17 hrs .........33 .I.s........................................................................................................................................................................................................................................................................................................ an off-line flow splitting device used? Yes ..................................................................................................................................................................................................................................................................................................................................... 34 Type of media used (Phosphosorb or Perlite) Perlite ...........W .................................................................................. ...be.......performed by Certified .l.l..maintenance 35 providers per instructions? Yes ADDITIONAL IMaintenance INFORMATION�������������������������������������� p p Y 36 information about the Storm Filter system(s): A drainage easement is not required because the the property is 9 q p p Y State-owned. RaefordNCNG POVExpansion 305 Teal Drive, Raeford, Maintenance records shall be kept on the following BMP(s). This maintenance record shall be kept in a log in a known set location. Any deficient BMP elements noted in the inspection will be corrected, repaired, or replaced immediately. These deficiencies can affect the integrity of structures, safety of the public, and the pollutant removal efficiency of the BMP(s). The BMP(s) on this project include (check all that apply & ci Bioretention Cell Quantity: Dry Detention Basin Quantity: Grassed Swale Quantity: Green Roof Quantity: Infiltration Basin Quantity: Infiltration Trench Quantity: Level SpreaderNFS Quantity: Permeable Pavement Quantity: Proprietary System Quantity: Rainwater Harvesting Quantity: Sand Filter Quantity: Stormwater Wetland Quantity: Wet Detention Basin Quantity: Disconnected Impervious Area Present: User Defined BMP Present: ng U&M tables wi Location(s): Location(s): Location(s): Location(s): Location(s): Location(s): Location(s): Location(s): Location(s): Location(s): Location(s): Location(s): Location(s): Location(s): Location(s): i De aaaea automaucai (Southwest of the Site I I acknowledge and agree by my signature below that I am responsible for the performance of the maintenance procedures listed for each BMP above, and attached O&M tables. I agree to notify NCDENR of any problems with the system or prior to any changes to the system or responsible party. * Responsible Party: Title & Organization: Street address: City, state, zip: Phone number(s): Email: Rodney D. Newton Facility Management Officer North Carolina National Guard 1636 Gold Star Drive, Suite 2600 Raleigh, NC, 27607 919-345-6137 rodney.d.newton.mil@mail.mil Signature: Date: 20 "q /) P— ?aF r .� I, -� � � °-� �-~�$� � , a Notary Public for the State of �������,�, �_�.u: County of -_i . do hearby certify that personally appeared before me this ZOO day of w ° and acknowledge the due execution of the Operations Witness m hand and official seal and M�infi_ ance Agreement. Y ARACELY LOP Notary Public, North Wake County My Commission E; January 29, 202 Z arolina IreS STO Z ', =k~ S My commission expires � � � ¥,:-�. 4/17/2020 Version 1.4 O&M Page 1 of 3 STORM-EZ 4/17/2020 Version 1.4 O&M Manual Page 2 of 3 Proprietary System Maintenance Requirements How many devices are Contech StormFilters? 1 Important operation and maintenance procedures: - The drainage area will be carefully managed to reduce the sediment load to the StormFilter. - The sedimentation chamber or forebay will be cleaned out whenever sediment depth exceeds six inches. The StormFilter system will be inspected quarterly. Records of operation and maintenance will be kept in a known set location and will be available upon request. Inspection activities shall be performed as follows. Any problems that are found shall be repaired immediately. BMP element: Potential problem: How to remediate the problem: Adjacent pavement (if applicable) Trash/debris is present. Remove the trash/debris. Flow diversion structure Sediment is present on the pavement surface. Sweep or vacuum the sediment as soon as possible. StormFilter Cartridges The structure is clogged. Unclog the conveyance and dispose of any sediment offsite. The structure is damaged. Make any necessary repairs or replace if damage is too large for Outlet device Clogging has occurred. Clean out the outlet device. Dispose of the sediment offsite. The outlet device is damaged Repair or replace the outlet device. Receiving water Erosion or other signs of damage have occurred at the outlet. Contact the 401 Oversight Unit at 919-733-1786. All other operation and maintenance activities should be in accordance with Contech's StormFilter Inspection and Maintenance Procedures document. Any problems that are found shall be repaired immediately. The responsible party shall have received and understand Contech's StormFilter Inspection and Maintenance Procedures document. STORM-EZ 4/17/2020 Version 1.4 O&M Manual Page 3 of 3 C'''NTECH® ENGINEERED SOLUTIONS StormFilter Inspection and Maintenance Procedures 40, The Stormwater Management Stormh Maintenance Guidelines The primary purpose of the Stormwater Management StormFilter' is to filter and prevent pollutants from entering our waterways. Like any effective filtration system, periodically these pollutants must be removed to restore the StormFilter to its full efficiency and effectiveness. Maintenance requirements and frequency are dependent on the pollutant load characteristics of each site. Maintenance activities may be required in the event of a chemical spill or due to excessive sediment loading from site erosion or extreme storms. It is a good practice to inspect the system after major storm events. Maintenance Procedures Although there are many effective maintenance options, we believe the following procedure to be efficient, using common equipment and existing maintenance protocols. The following two-step procedure is recommended:: 1. Inspection Inspection of the vault interior to determine the need for maintenance. 2. Maintenance • Cartridge replacement • Sediment removal Inspection and Maintenance Timing At least one scheduled inspection should take place per year with maintenance following as warranted. First, an inspection should be done before the winter season. During the inspection the need for maintenance should be determined and, if disposal during maintenance will be required, samples of the accumulated sediments and media should be obtained. Second, if warranted, a maintenance (replacement of the filter cartridges and removal of accumulated sediments) should be performed during periods of dry weather. In addition to these two activities, it is important to check the condition of the StormFilter unit after major storms for potential damage caused by high flows and for high sediment accumulation that may be caused by localized erosion in the drainage area. It may be necessary to adjust the inspection/ maintenance schedule depending on the actual operating conditions encountered by the system. In general, inspection activities can be conducted at any time, and maintenance should occur, if warranted, during dryer months in late summer to early fall. Maintenance Frequency The primary factor for determining frequency of maintenance for the StormFilter is sediment loading. A properly functioning system will remove solids from water by trapping particulates in the porous structure of the filter media inside the cartridges. The flow through the system will naturally decrease as more and more particulates are trapped. Eventually the flow through the cartridges will be low enough to require replacement. It may be possible to extend the usable span of the cartridges by removing sediment from upstream trapping devices on a routine as -needed basis, in order to prevent material from being re -suspended and discharged to the StormFilter treatment system. The average maintenance lifecycle is approximately 1-5 years. Site conditions greatly influence maintenance requirements. StormFilter units located in areas with erosion or active construction may need to be inspected and maintained more often than those with fully stabilized surface conditions. Regulatory requirements or a chemical spill can shift maintenance timing as well. The maintenance frequency may be adjusted as additional monitoring information becomes available during the inspection program. Areas that develop known problems should be inspected more frequently than areas that demonstrate no problems, particularly after major storms. Ultimately, inspection and maintenance activities should be scheduled based on the historic records and characteristics of an individual StormFilter system or site. It is recommended that the site owner develop a database to properly manage StormFilter inspection and maintenance programs.. Inspection Procedures The primary goal of an inspection is to assess the condition of the cartridges relative to the level of visual sediment loading as it relates to decreased treatment capacity. It may be desirable to conduct this inspection during a storm to observe the relative flow through the filter cartridges. If the submerged cartridges are severely plugged, then typically large amounts of sediments will be present and very little flow will be discharged from the drainage pipes. If this is the case, then maintenance is warranted and the cartridges need to be replaced. Warning: In the case of a spill, the worker should abort inspection activities until the proper guidance is obtained. Notify the local hazard control agency and Contech Engineered Solutions immediately. To conduct an inspection: Important: Inspection should be performed by a person who is familiar with the operation and configuration of the StormFilter treatment unit and the unit's role, relative to detention or retention facilities onsite. 1. If applicable, set up safety equipment to protect and notify surrounding vehicle and pedestrian traffic. 2. Visually inspect the external condition of the unit and take notes concerning defects/problems. 3. Open the access portals to the vault and allow the system vent. 4. Without entering the vault, visually inspect the inside of the unit, and note accumulations of liquids and solids. 5. Be sure to record the level of sediment build-up on the floor of the vault, in the forebay, and on top of the cartridges. If flow is occurring, note the flow of water per drainage pipe. Record all observations. Digital pictures are valuable for historical documentation. 6. Close and fasten the access portals. 7. Remove safety equipment. 8. If appropriate, make notes about the local drainage area relative to ongoing construction, erosion problems, or high loading of other materials to the system. 9. Discuss conditions that suggest maintenance and make decision as to whether or not maintenance is needed. Maintenance Decision Tree The need for maintenance is typically based on results of the inspection. The following Maintenance Decision Tree should be used as a general guide. (Other factors, such as Regulatory Requirements, may need to be considered). Please note Stormwater Management StormFilter devices installed downstream of, or integrated within, a stormwater storage facility typically have different operational parameters (i.e. draindown time). In these cases, the inspector must understand the relationship between the retention/detention facility and the treatment system by evaluating site specific civil engineering plans, or contacting the engineer of record, and make adjustments to the below guidance as necessary. Sediment deposition depths and patterns within the StormFilter are likely to be quite different compared to systems without upstream storage and therefore shouldn't be used exclusively to evaluate a need for maintenance. 1. Sediment loading on the vault floor. a. If >4" of accumulated sediment, maintenance is required. 2. Sediment loading on top of the cartridge. a. If >1/4" of accumulation, maintenance is required. 3. Submerged cartridges. a. If >4" of static water above cartridge bottom for more than 24 hours after end of rain event, maintenance is required. (Catch basins have standing water in the cartridge bay.) 4. Plugged media. a. While not required in all cases, inspection of the media within the cartridge may provide valuable additional information. b. If pore space between media granules is absent, maintenance is required. 5. Bypass condition. a. If inspection is conducted during an average rain fall event and StormFilter remains in bypass condition (water over the internal outlet baffle wall or submerged cartridges), maintenance is required. 6. Hazardous material release. a. If hazardous material release (automotive fluids or other) is reported, maintenance is required. 7. Pronounced scum line. a. If pronounced scum line (say >_ 1/4" thick) is present above top cap, maintenance is required. Maintenance Depending on the configuration of the particular system, maintenance personnel will be required to enter the vault to perform the maintenance. Important: If vault entry is required, OSHA rules for confined space entry must be followed. Filter cartridge replacement should occur during dry weather. It may be necessary to plug the filter inlet pipe if base flows is occurring. Replacement cartridges can be delivered to the site or customers facility. Information concerning how to obtain the replacement cartridges is available from Contech Engineered Solutions. Warning: In the case of a spill, the maintenance personnel should abort maintenance activities until the proper guidance is obtained. Notify the local hazard control agency and Contech Engineered Solutions immediately. To conduct cartridge replacement and sediment removal maintenance: 1. If applicable, set up safety equipment to protect maintenance personnel and pedestrians from site hazards. 2. Visually inspect the external condition of the unit and take notes concerning defects/problems. 3. Open the doors (access portals) to the vault and allow the system to vent. 4. Without entering the vault, give the inside of the unit, including components, a general condition inspection. 5. Make notes about the external and internal condition of the vault. Give particular attention to recording the level of sediment build-up on the floor of the vault, in the forebay, and on top of the internal components. 6. Using appropriate equipment offload the replacement cartridges (up to 150 lbs. each) and set aside. 7. Remove used cartridges from the vault using one of the following methods: Method 1: A. This activity will require that maintenance personnel enter the vault to remove the cartridges from the under drain manifold and place them under the vault opening for lifting (removal). Disconnect each filter cartridge from the underdrain connector by rotating counterclockwise 1/4 of a turn. Roll the loose cartridge, on edge, to a convenient spot beneath the vault access. Using appropriate hoisting equipment, attach a cable from the boom, crane, or tripod to the loose cartridge. Contact Contech Engineered Solutions for suggested attachment devices. B. Remove the used cartridges (up to 250 lbs. each) from the vault. Important: Care must be used to avoid damaging the cartridges during removal and installation. The cost of repairing components damaged during maintenance will be the responsibility of the owner. C. Set the used cartridge aside or load onto the hauling truck. D. Continue steps a through c until all cartridges have been removed. Method 2: A. This activity will require that maintenance personnel enter the vault to remove the cartridges from the under drain manifold and place them under the vault opening for lifting (removal). Disconnect each filter cartridge from the underdrain connector by rotating counterclockwise 1/4 of a turn. Roll the loose cartridge, on edge, to a convenient spot beneath the vault access. B. Unscrew the cartridge cap. C. Remove the cartridge hood and float. D. At location under structure access, tip the cartridge on its side. E. Empty the cartridge onto the vault floor. Reassemble the empty cartridge. F. Set the empty, used cartridge aside or load onto the hauling truck. G. Continue steps a through e until all cartridges have been removed. 8. Remove accumulated sediment from the floor of the vault and from the forebay. This can most effectively be accomplished by use of a vacuum truck. 9. Once the sediments are removed, assess the condition of the vault and the condition of the connectors. 10. Using the vacuum truck boom, crane, or tripod, lower and install the new cartridges. Once again, take care not to damage connections. 11. Close and fasten the door. 12. Remove safety equipment. 13. Finally, dispose of the accumulated materials in accordance with applicable regulations. Make arrangements to return the used empty cartridges to Contech Engineered Solutions. Related Maintenance Activities - Performed on an as -needed basis StormFilter units are often just one of many structures in a more comprehensive stormwater drainage and treatment system. In order for maintenance of the StormFilter to be successful, it is imperative that all other components be properly maintained. The maintenance/repair of upstream facilities should be carried out prior to StormFilter maintenance activities. In addition to considering upstream facilities, it is also important to correct any problems identified in the drainage area. Drainage area concerns may include: erosion problems, heavy oil loading, and discharges of inappropriate materials. Material Disposal The accumulated sediment found in stormwater treatment and conveyance systems must be handled and disposed of in accordance with regulatory protocols. It is possible for sediments to contain measurable concentrations of heavy metals and organic chemicals (such as pesticides and petroleum products). Areas with the greatest potential for high pollutant loading include industrial areas and heavily traveled roads. Sediments and water must be disposed of in accordance with all applicable waste disposal regulations. When scheduling maintenance, consideration must be made for the disposal of solid and liquid wastes. This typically requires coordination with a local landfill for solid waste disposal. For liquid waste disposal a number of options are available including a municipal vacuum truck decant facility, local waste water treatment plant or on -site treatment and discharge. Date: Personnel: Location: System Size: Months in Service: System Type: Vault ❑ Cast -In -Place ❑ Linear Catch Basin ❑ Manhole ❑ Other: Sediment Thickness in Forebay: Date: Sediment Depth on Vault Floor: Sediment Depth on Cartridge Top(s): Structural Damaae: Estimated Flow from Drainage Pipes (if available): Cartridges Submerged: Yes ❑ No ❑ Depth of Standing Water: StormFilter Maintenance Activities (check off if done and give description) ❑ Trash and Debris Removal: I-1 Minor Structural Reaairs: n Drainage Area Report Excessive Oil Loading: Yes ❑ No ❑ Source: Sediment Accumulation on Pavement: Yes ❑ No ❑ Source: Erosion of Landscaped Areas: Yes ❑ No ❑ Source: Items Needina Further Work: Owners should contact the local public works department and inquire about how the department disposes of their street waste residuals. Other Comments: Review the condition reports from the previous inspection visits. Date: Personnel: Location: System Size: _ System Type: Vault ❑ Cast -In -Place ❑ List Safety Procedures and Equipment Used: Linear Catch Basin ❑ Manhole ❑ Other: System Observations Months in Service: Oil in Forebay (if present): Yes ❑ No ❑ Sediment Depth in Forebay (if present): Sediment Depth on Vault Floor: Sediment Depth on Cartridge Top(s): Structural Damage: Drainage Area Report Excessive Oil Loading: Yes ❑ No ❑ Source: Sediment Accumulation on Pavement: Yes ❑ No ❑ Source: Erosion of Landscaped Areas: Yes ❑ No ❑ Source: StormFilter Cartridge Replacement Maintenance Activities Remove Trash and Debris: Yes ❑ No ❑ Details: Replace Cartridges: Yes ❑ No ❑ Details: Sediment Removed: Yes ❑ No ❑ Details: Quantity of Sediment Removed (estimate?): Minor Structural Repairs: Yes ❑ No ❑ Details: Residuals (debris, sediment) Disposal Methods: Notes: C%w NTECHR ENGINEERED SOLUTIONS © 2020 CONTECH ENGINEERED SOLUTIONS LLC, A QUIKRETE COMPANY 800-338-1 122 www.ContechES.com All Rights Reserved. Printed in the USA. Contech Engineered Solutions LLC provides site solutions for the civil engineering industry. Contech's portfolio includes bridges, drainage, sanitary sewer, stormwater and earth stabilization products. For information on other Contech division offerings, visit www.ContechES.com or call 800.338.1122. Support • Drawings and specifications are available at www.conteches.com. • Site -specific design support is available from our engineers. NOTHING IN THIS CATALOG SHOULD BE CONSTRUED AS A WARRANTY APPLICATIONS SUGGESTED HEREIN ARE DESCRIBED ONLY TO HELP READERS MAKE THEIR OWN EVALUATIONS AND DECISIONS, AND ARE NEITHER GUARANTEES NOR WARRANTIES OF SUITABILITY FOR ANY APPLICATION. CONTECH MAKES NO WARRANTY WHATSOEVER, EXPRESS OR IMPLIED, RELATED TO THE APPLICATIONS, MATERIALS, COATINGS, OR PRODUCTS DISCUSSED HEREIN. ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND ALL IMPLIED WARRANTIES OF FITNESS FOR ANY PARTICULAR PURPOSE ARE DISCLAIMED BY CONTECH. SEE CONTECHS CONDITIONS OF SALE (AVAILABLE AT WWW.CONTECHES.COM/COS) FOR MORE INFORMATION. Storm Filter Inspection and Maintenance Procedures 4/20 800.338.1 122 www.conteches.com