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SW3231201_Design Calculations_20240424
The Shops at Prescot Village Waxhaw, NC Site Address: Prescot Glen Parkway SWPPP Revisions Waxhaw, NC 28173 Parcel ID Us 06165003A No. Date 06165003P / / Permittee: The Widewaters Group / / 10800 Sikes Place, Suite 225 Charlotte, NC 28277 / / Permittee Contact: Brian R. Long / / (704) 248-7838 / / blong@widewaters.com / / Site Operator: / / Stormwater Pollution Prevention Plan (SWPPP) FOR: The Shops at Prescot Village April 24, 2024 BY: Barry M. Fay, PE American Engineering Associates -Southeast, PA. 8008 Corporate Center Drive, Suite 110 Charlotte, NC 28226 OFFICE: 704-375-2438 bfay@american-ea.com AAMERICAN Engineering American Engineering Associates-Southeast, PA. 8008 Corporate Center Drive,Suite 110 Charlotte,NC 28226 A AMERICAN OFFICE: OFFICE:704.375.2438 Engineering www.American-EA.com The Shops at Prescot Village —Waxhaw, NC 28173 Stormwater Pollution Prevention Plan Table of Contents Title Page # Site Narrative 4 Construction Sequence 6 Engineer Certification 7 Appendix A A-1 Location Map 8 A-2 Aerial Image 9 A-3 Soils Map 10 A-4 FEMA Flood Map 12 A-5 USGS Topographic Map 13 A-6 Grading Plan/Tributary Area Map 14 A-7 Storm Drain Pipe Calculations 17 A-8 Gutter Spread Calculations 24 A-9 Swale Calculations 26 A-10 Pre and Post Drainage Maps 45 A-11 Wet Pond Calculations 48 Water Quality Calculations 49 SA/DA & Forebay Sizing Calculations 50 Anti-Flotation Sizing 51 Emergency Spillway Stabilization Calculations 52 Hydraflow Hydrograph Results and Pond Report 53 A-12 Sediment Basin Calculations 82 Sediment Basin 1 Calculations 83 Sediment Basin 2 Calculations 86 A-13 Diversion Ditch & Slope Drain Calculations 89 Temporary Diversion Ditch 1 Calculations 90 Temporary Diversion Ditch 2 Calculations 92 American Engineering Associates-Southeast, PA. 8008 Corporate Center Drive,Suite 110 A AIVIERICAN Charlotte,NC 28226 OFFICE:704.375.2438 Engineering www.American-EA.com The Shops at Prescot Village—Waxhaw, NC 28173 Stormwater Pollution Prevention Plan Temporary Diversion Ditch 3 Calculations 94 Temporary Slope Drain Calculations 96 A-14 Riprap Apron Calculations 98 American Engineering Associates-Southeast, PA. 8008 Corporate Center Drive,Suite 110 A AMERICAN Charlotte,NC28226 OFFICE:704tte,NC5.2438 Engineering Charlotte, The Shops at Prescot Village—Waxhaw, NC 28173 Stormwater Pollution Prevention Plan Site Narrative The Widewaters Group intends to construct 3 commercial buildings on a 15.40-acre property located on portions of two parcels located on Prescot Glen Parkway in Waxhaw, NC.The parcel ID#s are 06165003P and 06165003A.The property is zoned CC(Corridor Commercial) and will support the proposed commercial building use. The site is currently vacant with no impervious area. Prescot Glen Parkway runs along the northern boundary of the site, NC-16 runs along the eastern boundary of the site and Pine Oak Road runs along the southern boundary of the site. The site currently has a driveway connection to NC-16 and a driveway connection to Prescot Glen Parkway.The proposed development will connect these two driveways and will propose an additional driveway along Prescot Glen Parkway at the existing roundabout. Water services to each of the proposed commercial buildings will be provided from the existing 8" water main along Prescot Glen Parkway.The sewer services will connect to the existing 8" sanitary sewer in Prescot Glen Parkway. The construction of The Shops at Prescot Village will disturb 15.63 acres of land.The existing drainage pattern primarily runs from the south to north throughout the site.The existing site drainage collects in a basin on the site and discharges to the north, across Prescot Glen Parkway,toward Twelvemile Creek. Development of the site will preserve existing drainage patterns by routing stormwater to a proposed wet detention pond on the northern side of Prescot Glen Parkway.The proposed storm drainage has been sized for the 10yr-5min stormwater intensity per rational stormwater runoff equation.The existing 42" RCP storm pipes across Prescot Glen Parkway have been evaluated for the 25yr-5min stormwater intensity.The proposed wet pond will capture a portion of the drainage from Prescot Glen Parkway in addition to the site drainage.The site is subject to post construction ordinance requirements because the proposes more than 20,000 square feet of Built-Upon Area (BUA).The POA moves slightly from the pre-development to post-development condition for the wet pond to avoid short-circuiting.The proposed wet pond will discharge to the Twelve Mile Creek floodplain to match the pre-development condition. Erosion and sediment control requirements are to be met through sediment basins, silt fence and inlet protection.The post construction stormwater requirements are to be met with a proposed wet pond. The wet pond has been designed to provide water quality treatment for the first inch of rainfall and pre vs post peak attenuation for the 2-year and 10-year 24-hour storm events.The emergency spillway has been designed to pass the 50-year storm.The pre-development and post development discharge rates are summarized in the table below. Pre vs Post Discharge Rates Summary Table American Engineering Associates-Southeast, PA. 8008 Corporate Center Drive,Suite 110 AMERICAN Charlotte,NC 28226 OFFICE:704.375.2438 Engineering www.American-EA.com The Shops at Prescot Village —Waxhaw, NC 28173 Stormwater Pollution Prevention Plan PRE VS POST DISCHARGE SUMMARY TABLE 2YR-24HR 10YR-24HR 25YR-24HR 50YR-24HR 100YR-24HR PRE(CFS) 21.27 47.70 66.18 81.65 98.48 POST(CFS) 5.99 45.99 85.42 116.98 144.32 DELTA -15.28 -1.71 19.24 35.33 45.84 BMP 1 ELEV. 510.49 511.53 511.91 512.14 512.31 FREEBOARD 2.51 1.47 1.09 0.86 0.69 American Engineering Associates-Southeast, PA. 8008 Corporate Center Drive,Suite 110 A AMERICAN Charlotte,NC28226 OFFICE:704tte,NC5.2438 Engineering Charlotte, The Shops at Prescot Village—Waxhaw, NC 28173 Stormwater Pollution Prevention Plan Construction Sequence 1. Obtain Grading/Erosion Control plan approval from the Town of Waxhaw erosion control inspector. Obtain NCGO1 permit. 2. Set up an on-site pre-construction conference with Erosion Control Inspector of the Town Engineering Department to discuss erosion control measures. Failure to schedule such conference 48 hours prior to any land disturbing activity is a violation of the town code and is subject to fine. 3. Install silt fence, inlet protection, sediment basins, diversion ditches,tree protection, and other measures as shown on the plans, clearing only as necessary to install these devices. 4. Call for on-site inspection by inspector.When approved, inspector issues the grading permit and clearing and grubbing may begin. 5. The contractor shall diligently and continuously maintain all erosion control devices and structures. Erosion control devices and structures to be inspected every 7 calendar days and after every 0.5 inch rainfall. 6. For phased erosion control plans, contractor shall meet with erosion control inspector prior to commencing with each phase of erosion control measures. 7. Stabilize the site as areas are brought to finished grade. 8. Coordinate with erosion control inspector prior to removal of erosion control measures. 9. All erosion control measures shall be constructed in accordance with the NC Erosion and Sediment Control Planning and Design Manual, US Dept of Agriculture,Town of Waxhaw Erosion Control Ordinance. AMERICAN American Engineering Associates-Southeast, PA. 8008 Corporate Center Drive,Suite 110 Charlotte,NC 28226 OFFICE:704.375.2438 Engineering www.American-EA.com The Shops at Prescot Village—Waxhaw, NC 28173 Stormwater Pollution Prevention Plan ENGINEER CERTIFICATION I HEREBY CERTIFY THAT SPECIFICATIONS CONTAINED HEREIN AND THE ACCOMPANYING DRAWINGS WERE PREPARED BY ME OR UNDER MY DIRECT SUPERVISION. SIGNED, SEALED AND DATED THIS 24 DAY OF APRIL , 2024 ya9197tp pSB ti rr S • r i , was`'• _l 'O•q V��/ % E A L 33046 ; gaff -vf, � ss . & `!E INEF- C, ,,RAY IVI. BY: BARRY M. FAY,PE COMPANY: AMERICAN ENGINEERING ASSOCIATES- SOUTHEAST, PA TITLE: PRINCIPAL American Engineering Associates-Southeast, PA. 8008 Corporate Center Drive,Suite 110 A AMERICAN Charlotte,NC 28226 OFFICE:704.375.2438 Engineering www.American-EA.com The Shops at Prescot Village—Waxhaw, NC 28173 Stormwater Pollution Prevention Plan Appendix A-1 Site Maps Location Map KENS�NG-0O6'. z m 'O z -1 ri�'��:��e SITE 44+44+44+44 eeie1eee+e4vee ?ee?e eeee eeee s' !e1O1e1 e1e1O1e1 ee�: PK ;+44+44+44+4444 eee1eele.44.eeee1e4 P11s1EOAR0 6 m vra 13 LOCATION MAP NOT TO SCALE American Engineering Associates-Southeast, PA. 8008 Corporate Center Drive,Suite 110 A AIVIERICAN Charlotte,NC 28226 OFFICE:704.375.2438 Engineering www.American-EA.com The Shops at Prescot Village—Waxhaw, NC 28173 Stormwater Pollution Prevention Plan Appendix A-2 Site Maps Aerial Image .Vtle\' Wendy's Fast Food•S Bed and Bark • Kemble St ,Q�e Gtegk +�` yi �Fasstt Food°S Jr� ��e\ 'rf Sam's Xpress ear Wash '' • ♦t eSoottGle�PkwY Prescottcilen P. Vi t 12 Q` 6 to Opel te� .f•1�♦, i? c.c.ttG Reed's Karate Academy 'N.,. .�!,�, oak Rd v � Pine -,n p�_Oek'Rd— ♦y H.-.. . m f. .er • ,• ;1 • ta�� ;O .OIUt10nS • :_. T. 4 - 'R ./ %, I . ` Thimble Bees �• � Sewing School Sewing shop r' Providence TA- Animal Hospital• W American Engineering Associates-Southeast, PA. 8008 Corporate Center Drive,Suite 110 A AME.RICA.N Charlotte,NC 28226 OFFICE:704.375.2438 Engineering www.American-EA.com The Shops at Prescot Village—Waxhaw, NC 28173 Stormwater Pollution Prevention Plan Appendix A-3 Site Maps Soils Map 3 Hydrologic Soil Group—Union County.North Carolina 3 '7 S 521893 521940 5223D 5Z2131 522121 522190 522241 522300 522333 522420 34°570"N i r __ i 34°570'N { 44_ ' r 66 a \:\ChA ., • }40-- . j30A '3N"- 4. State N S gokma. m , Woe @tierwal g�t ilDdatillkiljpo, l.. . P §i -- Yip ' 4 34°`b'15'N 3e 56'45'N 521890 521940 572D00 52/080 522121 5221E0 52212 52P.A0 522380 522420 3 3 Map Scale:1:2,670If pilled onAbrsIscape(11"x 8.51 sheet N Meters AFeet 0 M 70 140 210 g3 CO) o 1m 200 Quo Map Web Mercator Comer WGS84 Ecliptics:URA Zone 17N WG564 USDA Natural Resources Web Soil Survey 10/3/2023 Conservation Service National Cooperative Soil Survey Page 1 of 4 American Engineering Associates-Southeast, PA. 8008 Corporate Center Drive,Suite 110 A \ AMERICAN Charlotte,NC28226 OFFICE:704.375.2438 Engineering www.American-EA.com The Shops at Prescot Village—Waxhaw, NC 28173 Stormwater Pollution Prevention Plan Hydrologic Soil Group—Union County,North Carolina Hydrologic Soil Group Map unit symbol Map unit name Rating Acres in AOI Percent of AOI BaC Badin channery silt C 7.9 38.2% loam,8 to 15 percent slopes CM Chewada silt loam,0 to B/D 0.2 0.9% 2 percent slopes, frequently flooded TbB2 Tarrus gravelly silty day B 12.5 60.9% loam,2 to 8 percent slopes,moderately eroded Totals for Area of Interest 20.6 100.0% (Knn Natural Resources Web Soil Survey 10/3/2023 Conservation Service National Cooperative Soil Survey Page 3 of 4 American Engineering Associates-Southeast, PA. 8008 Corporate Center Drive,Suite 110 A A ME.RICA.N Charlotte,NC 28226 OFFICE:704.375.2438 Engineering www.American-EA.com The Shops at Prescot Village —Waxhaw, NC 28173 Stormwater Pollution Prevention Plan Appendix A-4 Site Maps FEMA Flood Map - Portion of 3710447400J) vim: I(i' \ �v� 5 ` `. ' tom. 1 •.�- ! .,^,. lliki . ,,i, .,)..Y1 tilt '1 ..., 71 )' •` -, jig ' I� AO- •� � 7 �+l .l .Kt r SITE f .: �= � .s,,,; -. ,�.., /fir :'� {' t•\'yb'- au.e7rw w.r r, American Engineering Associates-Southeast, PA. 8008 Corporate Center Drive,Suite 110 Charlotte,NC 28226 4 AMERICAN OFFICE:704.37 .2438 704.375.2438 Engineering www.American-EA.com The Shops at Prescot Village—Waxhaw, NC 28173 Stormwater Pollution Prevention Plan Appendix A-5 Site Maps USGS Topographic Map — Portion of Catawba NE Quadrangle :7 550�OAR,G,EAGLELN 10 MIMITEHAWKN/ �� I SO O�Mf `1/ l�g1�ii GI 1 MARVIN oR msmi ss ^l I 0`9 i I 68 C�6 gNDR v� o _ p 0 s 73 <� ` A A 20s ' A0it ' pp =�� A S-d , 3=) E CI‘ �_^ p rid/ a� O o' ' N Sou '^ � � NNE OAK RD �O `., ,t RYGyp0- P S an sf 1 TON DR �` w 0 67 -�-ss,11111111•o KENSING ;� c. 5 o WAXHAW Rice t \ # BRIDGEWICK RD ' y N Q ry Chapel Cem O?' �sq7� SI° OR N\ -,gyp 00 ` �� �+ �`�6 °OAKS TRL `\yy2.f. ; -4► ( h .. �E ‘� ) 0q li rS�� 66 i 6 §.- i "tvSSD` W RD �� 1 1 CRivIE ,550 h�y0 FALCONDAL'E RD �" I MO�rl/ � 4+p 1 v� Ej) Vie American Engineering Associates-Southeast, PA. 8008 Corporate Center Drive,Suite 110 A AMERICharlotte,NC CAN 28226 OFFICE: 5.2438 Engineering www.American-EA.com The Shops at Prescot Village—Waxhaw, NC 28173 Stormwater Pollution Prevention Plan Appendix A-6 Grading Plan/Tributary Area Map 1D:1 3.� in ID:1 T;.>• ES/nt j-/ ''S i w S1Q�{2/i%-/// / 10 i� -- OE LEGEND EX.CATCH BASIN&PIPE Di I II Z �^IL '1 1 V 1 /5� i — /� / �� SEE STORM DRAIN EASEMENT --oE of EX.OVERHEAD ELECTRIC _ 2' 7 2� �- ..-.. 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C5.6 American Engineering Associates-Southeast, PA. 8008 Corporate Center Drive,Suite 110 A AMERICharlotte,NC CAN 28226 OFFICE: 5.2438 Engineering www.American-EA.com The Shops at Prescot Village—Waxhaw, NC 28173 Stormwater Pollution Prevention Plan Appendix A-7 Storm Drain Pipe Calculations Hydraflow Storm Sewers Extension for Autodesk® Civil 3D® Plan Outfall A32 �33 2 A34 Al 8 4 34 26 A20 8 A19 7 A21 A23 5 6 A31 A22 9 27 15 45Ife 24 A30 22 All 14 A1313 12 11 A15 14 28 A9 A10 1A8 Al2 A29 17 A6 25 29 A7 A28 18 30 A4 P737 23 31 32 A26 A25 A24 A5 19 20 21 A3 A2 Al Project File: Storm A.stm Number of lines: 34 Date:4/24/2024 Storm Sewers v2023.00 Storm Sewer Tabulation Pagel Station Len Drng Area Rnoff Area x C Tc Rain Total Cap Vel Pipe Invert Elev HGL Elev Grnd/Rim Elev Line ID coeff (I) flow full Line To Incr Total Incr Total Inlet Syst Size Slope Dn Up Dn Up Dn Up Line (ft) (ac) (ac) (C) (min) (min) (in/hr) (cfs) (cfs) (ft/s) (in) (%) (ft) (ft) (ft) (ft) (ft) (ft) 1 End 133.158 0.00 12.40 0.00 0.00 10.74 0.0 11.8 5.8 62.82 202.6 8.38 42(2b) 1.01 505.86 507.21 507.30 508.65 509.81 520.91 A34-A35 2 1 13.310 0.46 12.40 0.90 0.41 10.74 5.0 11.7 5.9 62.87 173.4 16.19 36 4.00 510.02 510.55 511.27 513.10 520.91 523.97 A33-A34 3 2 48.100 0.12 11.94 0.90 0.11 10.33 5.0 11.6 5.9 60.63 150.2 10.96 36 3.00 511.13 512.58 513.10 515.09 523.97 519.16 A32-A33 4 3 92.264 0.14 9.24 0.90 0.13 7.90 5.0 11.4 5.9 46.70 86.70 8.18 36 1.00 512.79 513.71 515.09 515.94 519.16 525.91 A23-A32 5 4 101.764 0.43 9.10 0.90 0.39 7.77 5.0 11.2 6.0 46.31 86.70 8.26 36 1.00 513.71 514.73 515.94 516.94 525.91 526.20 A22-A23 6 5 133.004 0.45 6.10 0.90 0.40 5.07 5.0 8.4 6.6 33.40 61.31 6.58 36 0.50 514.73 515.40 516.94 517.27 526.20 525.98 A21-A22 7 6 117.750 0.21 5.65 0.90 0.19 4.67 5.0 8.0 6.7 31.26 61.31 6.87 36 0.50 515.40 515.98 517.27 517.80 525.98 525.52 A20-A21 8 7 61.709 0.09 5.44 0.90 0.09 4.48 5.0 7.8 6.8 30.25 61.31 6.85 36 0.50 515.98 516.29 517.80 518.07 525.52 523.00 A19-A20 9 8 91.575 0.12 3.96 0.90 0.11 3.15 5.0 7.6 6.8 21.47 50.93 11.62 24 3.00 517.29 520.04 518.20 521.70 523.00 527.34 A17-A19 10 9 23.500 0.26 3.84 0.90 0.23 3.04 5.0 7.5 6.8 20.75 50.93 7.51 24 3.00 520.04 520.74 521.70 522.38 527.34 527.25 A16-A17 11 10 33.950 0.21 0.81 0.90 0.19 0.73 5.0 7.4 6.9 5.02 8.40 6.20 15 1.00 522.41 522.74 523.10 523.65 527.25 527.84 A14-A16 12 11 23.500 0.12 0.60 0.90 0.11 0.54 5.0 7.3 6.9 3.74 8.39 4.28 15 1.00 522.74 522.98 523.65 523.76 527.84 527.80 A13-A14 13 12 10.796 0.40 0.48 0.90 0.36 0.43 5.0 7.2 6.9 2.99 8.40 3.98 15 1.00 522.98 523.09 523.76 523.78 527.80 528.63 Al2-A13 14 13 57.250 0.08 0.08 0.90 0.07 0.07 5.0 5.0 7.6 0.53 13.27 3.91 15 2.50 523.95 525.38 524.12 525.66 528.63 529.37 A11-Al2 15 5 126.220 0.04 2.57 0.90 0.03 2.31 5.0 10.8 6.0 13.98 29.40 7.73 24 1.00 516.49 517.75 517.46 519.10 526.20 529.13 A10-A22 16 15 23.500 0.05 2.41 0.90 0.05 2.17 5.0 10.7 6.1 13.15 29.40 5.96 24 1.00 517.75 517.99 519.10 519.29 529.13 529.13 A8-A10 17 16 70.950 0.58 2.36 0.90 0.53 2.12 5.0 10.4 6.1 12.97 29.40 6.00 24 1.00 517.99 518.70 519.29 519.99 529.13 527.36 A7-A8 18 17 122.050 0.89 1.59 0.90 0.80 1.43 5.0 9.8 6.3 8.96 29.40 4.71 24 1.00 518.70 519.92 519.99 520.98 527.36 527.63 A5-A7 19 18 114.396 0.06 0.26 0.90 0.05 0.23 5.0 8.4 6.6 1.54 8.39 4.33 15 1.00 520.67 521.81 521.03 522.30 527.63 528.84 A3-A5 20 19 70.063 0.09 0.20 0.90 0.08 0.18 5.0 7.4 6.9 1.26 8.39 3.03 15 1.00 521.81 522.51 522.30 522.95 528.84 527.22 A2-A3 21 20 88.674 0.11 0.11 0.90 0.10 0.10 5.0 5.0 7.6 0.76 11.87 2.37 15 2.00 522.51 524.28 522.95 524.62 527.22 527.44 A1-A2 22 15 59.493 0.12 0.12 0.90 0.11 0.11 5.0 5.0 7.6 0.83 29.40 3.37 24 1.00 521.43 522.03 521.66 522.34 529.13 528.11 A9-A10 Project File: Storm A.stm Number of lines:34 Run Date: 4/24/2024 NOTES:Intensity=75.55/(Inlet time+12.40)^0.80; Return period=Yrs. 10 ; c=cir e=ellip b=box Storm Sewers v2023.00 Storm Sewer Tabulation Paget Station Len Drng Area Rnoff Area x C Tc Rain Total Cap Vel Pipe Invert Elev HGL Elev Grnd/Rim Elev Line ID coeff (I) flow full Line To Incr Total Incr Total Inlet Syst Size Slope Dn Up Dn Up Dn Up Line (ft) (ac) (ac) (C) (min) (min) (in/hr) (cfs) (cfs) (ft/s) (in) (%) (ft) (ft) (ft) (ft) (ft) (ft) 23 18 104.500 0.44 0.44 0.90 0.40 0.40 5.0 5.0 7.6 3.01 13.27 6.51 15 2.50 521.56 524.18 521.97 524.87 527.63 529.94 A4-A5 24 10 14.273 2.77 2.77 0.75 2.08 2.08 5.0 5.0 7.6 15.82 50.93 6.17 24 3.00 520.74 521.17 522.38 522.61 527.25 526.83 A15-A16 25 17 99.000 0.18 0.18 0.90 0.16 0.16 5.0 5.0 7.6 1.23 13.79 5.09 15 2.70 520.34 523.02 520.60 523.46 527.36 529.95 A6-A7 26 3 154.048 0.28 2.58 0.90 0.25 2.32 5.0 7.4 6.9 15.95 36.01 6.43 24 1.50 513.58 515.89 515.09 517.32 519.16 525.84 A31-A32 27 26 123.781 0.26 2.30 0.90 0.23 2.07 5.0 6.9 7.0 14.50 29.40 7.15 24 1.00 516.20 517.44 517.32 518.81 525.84 526.39 A30-A31 28 27 73.431 0.19 2.04 0.90 0.17 1.84 5.0 6.6 7.1 13.03 20.79 5.86 24 0.50 517.44 517.81 518.81 519.10 526.39 527.08 A29-A30 29 28 79.404 0.55 1.85 0.90 0.50 1.67 5.0 6.3 7.2 12.00 20.79 5.70 24 0.50 517.81 518.20 519.10 519.45 527.08 528.23 A28-A29 30 29 103.133 0.05 1.30 0.90 0.04 1.17 5.0 5.6 7.4 8.65 20.79 4.70 24 0.50 518.20 518.72 519.45 519.77 528.23 523.82 A27-A28 31 30 24.650 0.04 0.73 0.90 0.03 0.66 5.0 5.5 7.4 4.90 9.65 5.11 18 0.50 519.22 519.34 519.98 520.19 523.82 526.59 A25-A27 32 31 80.822 0.69 0.69 0.90 0.63 0.63 5.0 5.0 7.6 4.76 9.65 4.65 18 0.50 519.34 519.75 520.19 520.58 526.59 524.57 A24-A25 33 30 35.059 0.52 0.52 0.90 0.47 0.47 5.0 5.0 7.6 3.58 9.65 4.66 18 0.50 519.22 519.39 519.85 520.12 523.82 523.03 A26-A27 34 8 65.900 1.38 1.38 0.90 1.24 1.24 5.0 5.0 7.6 9.44 13.65 6.16 18 1.00 516.83 517.49 518.07 518.68 523.00 521.28 A18-A19 Project File: Storm A.stm Number of lines:34 Run Date: 4/24/2024 NOTES:Intensity=75.55/(Inlet time+12.40)^0.80; Return period=Yrs. 10 ; c=cir e=ellip b=box Storm Sewers v2023.00 Hydraflow Storm Sewers Extension for Autodesk® Civil 3D® Plan Outfall A32 �33 2 A34 Al 8 4 34 26 A20 8 A19 7 A21 A23 5 6 A31 A22 9 27 15 45Ife 24 A30 22 All 14 A1313 12 11 A15 14 28 A9 A10 1A8 Al2 A29 17 A6 25 29 A7 A28 18 30 A4 P737 23 31 32 A26 A25 A24 A5 19 20 21 A3 A2 Al Project File: Storm A.stm Number of lines: 34 Date:4/24/2024 Storm Sewers v2023.00 Storm Sewer Tabulation Pagel Station Len Drng Area Rnoff Area x C Tc Rain Total Cap Vel Pipe Invert Elev HGL Elev Grnd/Rim Elev Line ID coeff (I) flow full Line To Incr Total Incr Total Inlet Syst Size Slope Dn Up Dn Up Dn Up Line (ft) (ac) (ac) (C) (min) (min) (in/hr) (cfs) (cfs) (ft/s) (in) (%) (ft) (ft) (ft) (ft) (ft) (ft) 1 End 133.158 0.00 12.40 0.00 0.00 10.74 0.0 11.1 6.6 71.24 202.6 9.13 42(2b) 1.01 505.86 507.21 507.30 508.75 509.81 520.91 A34-A35 2 1 13.310 0.46 12.40 0.90 0.41 10.74 5.0 11.1 6.6 71.29 173.4 17.02 36 4.00 510.02 510.55 511.36 513.22 520.91 523.97 A33-A34 3 2 48.100 0.12 11.94 0.90 0.11 10.33 5.0 11.0 6.7 68.72 150.2 11.75 36 3.00 511.13 512.58 513.22 515.21 523.97 519.16 A32-A33 4 3 92.264 0.14 9.24 0.90 0.13 7.90 5.0 10.8 6.7 52.90 86.70 8.75 36 1.00 512.79 513.71 515.21 516.07 519.16 525.91 A23-A32 5 4 101.764 0.43 9.10 0.90 0.39 7.77 5.0 10.6 6.7 52.42 86.70 8.80 36 1.00 513.71 514.73 516.07 517.08 525.91 526.20 A22-A23 6 5 133.004 0.45 6.10 0.90 0.40 5.07 5.0 8.1 7.4 37.44 61.31 6.91 36 0.50 514.73 515.40 517.08 517.38 526.20 525.98 A21-A22 7 6 117.750 0.21 5.65 0.90 0.19 4.67 5.0 7.7 7.5 34.97 61.31 7.18 36 0.50 515.40 515.98 517.38 517.90 525.98 525.52 A20-A21 8 7 61.709 0.09 5.44 0.90 0.09 4.48 5.0 7.5 7.6 33.81 61.31 7.15 36 0.50 515.98 516.29 517.90 518.18 525.52 523.00 A19-A20 9 8 91.575 0.12 3.96 0.90 0.11 3.15 5.0 7.3 7.6 23.98 50.93 12.13 24 3.00 517.29 520.04 518.26 521.77 523.00 527.34 A17-A19 10 9 23.500 0.26 3.84 0.90 0.23 3.04 5.0 7.3 7.6 23.18 50.93 8.06 24 3.00 520.04 520.74 521.77 522.45 527.34 527.25 A16-A17 11 10 33.950 0.21 0.81 0.90 0.19 0.73 5.0 7.2 7.7 5.60 8.40 6.44 15 1.00 522.41 522.74 523.15 523.70 527.25 527.84 A14-A16 12 11 23.500 0.12 0.60 0.90 0.11 0.54 5.0 7.1 7.7 4.18 8.39 4.49 15 1.00 522.74 522.98 523.70 523.81 527.84 527.80 A13-A14 13 12 10.796 0.40 0.48 0.90 0.36 0.43 5.0 7.0 7.7 3.33 8.40 4.15 15 1.00 522.98 523.09 523.81 523.82 527.80 528.63 Al2-A13 14 13 57.250 0.08 0.08 0.90 0.07 0.07 5.0 5.0 8.4 0.59 13.27 4.02 15 2.50 523.95 525.38 524.13 525.68 528.63 529.37 A11-Al2 15 5 126.220 0.04 2.57 0.90 0.03 2.31 5.0 10.2 6.8 15.80 29.40 8.04 24 1.00 516.49 517.75 517.53 519.18 526.20 529.13 A10-A22 16 15 23.500 0.05 2.41 0.90 0.05 2.17 5.0 10.1 6.9 14.86 29.40 6.28 24 1.00 517.75 517.99 519.18 519.37 529.13 529.13 A8-A10 17 16 70.950 0.58 2.36 0.90 0.53 2.12 5.0 9.9 6.9 14.64 29.40 6.32 24 1.00 517.99 518.70 519.37 520.07 529.13 527.36 A7-A8 18 17 122.050 0.89 1.59 0.90 0.80 1.43 5.0 9.4 7.0 10.10 29.40 4.93 24 1.00 518.70 519.92 520.07 521.05 527.36 527.63 A5-A7 19 18 114.396 0.06 0.26 0.90 0.05 0.23 5.0 8.1 7.4 1.73 8.39 4.46 15 1.00 520.67 521.81 521.05 522.33 527.63 528.84 A3-A5 20 19 70.063 0.09 0.20 0.90 0.08 0.18 5.0 7.2 7.7 1.41 8.39 3.13 15 1.00 521.81 522.51 522.33 522.98 528.84 527.22 A2-A3 21 20 88.674 0.11 0.11 0.90 0.10 0.10 5.0 5.0 8.4 0.84 11.87 2.43 15 2.00 522.51 524.28 522.98 524.64 527.22 527.44 A1-A2 22 15 59.493 0.12 0.12 0.90 0.11 0.11 5.0 5.0 8.4 0.91 29.40 3.47 24 1.00 521.43 522.03 521.67 522.35 529.13 528.11 A9-A10 Project File: Storm A.stm Number of lines:34 Run Date: 4/24/2024 NOTES:Intensity=69.16/(Inlet time+11.50)A 0.75; Return period=Yrs.25 ; c=cir e=ellip b=box Storm Sewers v2023.00 Storm Sewer Tabulation Paget Station Len Drng Area Rnoff Area x C Tc Rain Total Cap Vel Pipe Invert Elev HGL Elev Grnd/Rim Elev Line ID coeff (I) flow full Line To Incr Total Incr Total Inlet Syst Size Slope Dn Up Dn Up Dn Up Line (ft) (ac) (ac) (C) (min) (min) (in/hr) (cfs) (cfs) (ft/s) (in) (%) (ft) (ft) (ft) (ft) (ft) (ft) 23 18 104.500 0.44 0.44 0.90 0.40 0.40 5.0 5.0 8.4 3.33 13.27 6.71 15 2.50 521.56 524.18 521.99 524.91 527.63 529.94 A4-A5 24 10 14.273 2.77 2.77 0.75 2.08 2.08 5.0 5.0 8.4 17.47 50.93 6.50 24 3.00 520.74 521.17 522.45 522.68 527.25 526.83 A15-A16 25 17 99.000 0.18 0.18 0.90 0.16 0.16 5.0 5.0 8.4 1.36 13.79 5.23 15 2.70 520.34 523.02 520.61 523.48 527.36 529.95 A6-A7 26 3 154.048 0.28 2.58 0.90 0.25 2.32 5.0 7.1 7.7 17.80 36.01 6.71 24 1.50 513.58 515.89 515.21 517.41 519.16 525.84 A31-A32 27 26 123.781 0.26 2.30 0.90 0.23 2.07 5.0 6.7 7.8 16.15 29.40 7.40 24 1.00 516.20 517.44 517.41 518.89 525.84 526.39 A30-A31 28 27 73.431 0.19 2.04 0.90 0.17 1.84 5.0 6.5 7.9 14.50 20.79 6.14 24 0.50 517.44 517.81 518.89 519.18 526.39 527.08 A29-A30 29 28 79.404 0.55 1.85 0.90 0.50 1.67 5.0 6.2 8.0 13.33 20.79 5.95 24 0.50 517.81 518.20 519.18 519.52 527.08 528.23 A28-A29 30 29 103.133 0.05 1.30 0.90 0.04 1.17 5.0 5.6 8.2 9.58 20.79 4.88 24 0.50 518.20 518.72 519.52 519.82 528.23 523.82 A27-A28 31 30 24.650 0.04 0.73 0.90 0.03 0.66 5.0 5.5 8.2 5.42 9.65 5.27 18 0.50 519.22 519.34 520.02 520.24 523.82 526.59 A25-A27 32 31 80.822 0.69 0.69 0.90 0.63 0.63 5.0 5.0 8.4 5.25 9.65 4.81 18 0.50 519.34 519.75 520.24 520.63 526.59 524.57 A24-A25 33 30 35.059 0.52 0.52 0.90 0.47 0.47 5.0 5.0 8.4 3.96 9.65 4.80 18 0.50 519.22 519.39 519.89 520.15 523.82 523.03 A26-A27 34 8 65.900 1.38 1.38 0.90 1.24 1.24 5.0 5.0 8.4 10.42 13.65 6.45 18 1.00 516.83 517.49 518.18 518.73 523.00 521.28 A18-A19 Project File: Storm A.stm Number of lines:34 Run Date: 4/24/2024 NOTES:Intensity=69.16/(Inlet time+11.50)A 0.75; Return period=Yrs.25 ; c=cir e=ellip b=box Storm Sewers v2023.00 American Engineering Associates-Southeast, PA. 8008 Corporate Center Drive,Suite 110 A AME.RICAN Charlotte,NC 28226 OFFICE:704.375.2438 Engineering www.American-EA.com The Shops at Prescot Village—Waxhaw, NC 28173 Stormwater Pollution Prevention Plan Appendix A-8 Gutter Spread Calculations GUTTER SPREAD CALCULATIONS PROJECT: The Shops at Prescot Village COMPUTED BY: BHE LOCATION: Waxhaw,NC CHECKED BY: DATE: 2/22/2024 RAINFALL INTENSITY =4.0 in/hr(On Grade Conditions-Roadway) Trib. C Sag St SI Single/Double Struct.Number Area Factor Condition Cul-de-sac Flow Cross Slope Long.Slope Grate T D K Qcap Qbypass Contributing Structures/Flow Qadd (ac) (Y/N) (Y/N) (cfs) (ft/ft) (ft/ft) (S/D) (ft) (in) (cfs) (cfs) (cfs) (cfs) EX1 0.31 0.70 N N 0.87 0.02000 0.0134 S 6.47 0.13 20.41 0.68 0.19 0.00 EX2 0.30 0.70 Y N 0.84 0.02000 0.0000 S 5.52 0.11 0.00 EX3 0.28 0.70 Y N 0.78 0.02000 0.0000 S 5.27 0.11 -- -- -- 0.00 EX4 0.34 0.70 Y N 1.56 0.02000 0.0000 S 8.35 0.17 -- -- -- (p 65) 0.61 EX5 0.43 0.70 N N 1.61 0.02000 0.0127 S 8.23 0.16 20.10 0.99 0.61 0.40 (0.40) EX6 0.31 0.70 N N 1.21 0.02000 0.0078 S 8.11 0.16 16.74 0.81 0.40 (0.34) 0.34 EX7 0.39 0.70 N N 1.09 0.02000 0.0072 S 7.92 0.16 16.16 0.75 0.34 0.00 Page 1 of 1 American Engineering Associates-Southeast, PA. 8008 Corporate Center Drive,Suite 110 CharlAM E RI CAN FF CE:704.3tte, 7 .2438 A \ OFFICE:704.375.2438 Engineering www.American-EA.com The Shops at Prescot Village—Waxhaw, NC 28173 Stormwater Pollution Prevention Plan Appendix A-9 Swale Calculations Channel Report Hydraflow Express Extension for Autodesk®Civil 3D®by Autodesk, Inc. Thursday,Apr 11 2024 Swale 1A Trapezoidal Highlighted Bottom Width (ft) = 2.00 Depth (ft) = 0.29 Side Slopes (z:1) = 10.00, 2.00 Q (cfs) = 1.740 Total Depth (ft) = 0.50 Area (sqft) = 1.08 Invert Elev (ft) = 526.83 Velocity (ft/s) = 1.60 Slope (%) = 1.00 Wetted Perim (ft) = 5.56 N-Value = 0.030 Crit Depth, Yc (ft) = 0.23 Top Width (ft) = 5.48 Calculations EGL (ft) = 0.33 Compute by: Known Q Known Q (cfs) = 1.74 Elev (ft) Section Depth (ft) 528.00 1.17 527.50 0.67 VP527.00 0.17 526.50 -0.33 526.00 -0.83 0 1 2 3 4 5 6 7 8 9 10 Reach (ft) Hydrology Report Hydraflow Express Extension for Autodesk®Civil 3D®by Autodesk, Inc. Thursday,Apr 11 2024 Swale 1A Hydrograph type = Rational Peak discharge (cfs) = 1.735 Storm frequency (yrs) = 10 Time interval (min) = 1 Drainage area (ac) = 0.760 Runoff coeff. (C) = 0.3 Rainfall Inten (in/hr) = 7.610 Tc by User (min) = 5 IDF Curve = Waxhaw.IDF Rec limb factor = 1.00 Hydrograph Volume=521 (cuff);0.012(acft) Runoff Hydrograph Q (cfs) 10-yr frequency Q (cfs) 2.00 2.00 1.00 1.00 0.00 0.00 0 5 10 Time (min) Runoff Hyd -Qp = 1.74 (cfs) 4/11/24, 1:38 PM ECMDS 7.0 NORTH North American Green AMERICAN 5401 St. Wendel-Cynthiana Rd. Poseyville, Indiana 47633 GREEN Tel. 800.772.2040 >Fax 812.867.0247 www.nagreen.com ECMDS v7.0 CHANNEL ANALYSIS >>>Swale 1A Name Swale 1A Discharge 1.74 Channel Slope 0.01 Channel Bottom Width 2 Left Side Slope 10 Right Side Slope 2 Low Flow Liner Retardence Class C 6-12 in Vegetation Type Bunch Type Vegetation Density Good 65-79% Soil Type Silt Loam(SM) Unreinforced Vegetation Normal Permissible Calculated Safety Staple Phase Reach Discharge Velocity Mannings N Remarks Depth Shear Stress Shear Stress Factor Pattern Unreinforced Straight 1.74 cfs 0.73 ft/s 0.49 ft 0.092 4 Ibs/ft2 0.3 lbs/ft2 13.19 STABLE -- Vegetation Underlying Straight 1.74 cfs 0.73 ft/s 0.49 ft 0.092 4 lbs/ft2 0.19 lbs/ft2 21.38 STABLE Substrate https://ecmds.com/project/159789/channel-analysis/263714/show 1/1 Channel Report Hydraflow Express Extension for Autodesk®Civil 3D®by Autodesk, Inc. Thursday,Apr 11 2024 Swale 1 B Trapezoidal Highlighted Bottom Width (ft) = 2.00 Depth (ft) = 0.15 Side Slopes (z:1) = 10.00, 2.00 Q (cfs) = 1.940 Total Depth (ft) = 0.50 Area (sqft) = 0.44 Invert Elev (ft) = 526.83 Velocity (ft/s) = 4.46 Slope (%) = 15.00 Wetted Perim (ft) = 3.84 N-Value = 0.030 Crit Depth, Yc (ft) = 0.25 Top Width (ft) = 3.80 Calculations EGL (ft) = 0.46 Compute by: Known Q Known Q (cfs) = 1.94 Elev (ft) Section Depth (ft) 528.00 1.17 527.50 0.67 / 527.00 - 0 0.17 526.50 -0.33 526.00 -0.83 0 1 2 3 4 5 6 7 8 9 10 Reach (ft) Hydrology Report Hydraflow Express Extension for Autodesk®Civil 3D®by Autodesk, Inc. Thursday,Apr 11 2024 Swale 1 B Hydrograph type = Rational Peak discharge (cfs) = 1.941 Storm frequency (yrs) = 10 Time interval (min) = 1 Drainage area (ac) = 0.850 Runoff coeff. (C) = 0.3 Rainfall Inten (in/hr) = 7.610 Tc by User (min) = 5 IDF Curve = Waxhaw.IDF Rec limb factor = 1.00 Hydrograph Volume=582(cuff);0.013(acft) Runoff Hydrograph Q (cfs) 10-yr frequency Q (cfs) 2.00 2.00 1.00 1.00 0.00 0.00 0 5 10 Time (min) Runoff Hyd -Qp = 1.94 (cfs) 4/11/24, 1:40 PM ECMDS 7.0 NORTH North American Green AMERICAN 5401 St. Wendel-Cynthiana Rd. Poseyville, Indiana 47633 GREEN Tel. 800.772.2040 >Fax 812.867.0247 www.nagreen.com ECMDS v7.0 CHANNEL ANALYSIS >>>Swale 1B Name Swale 1 B Discharge 1.94 Channel Slope 0.15 Channel Bottom Width 2 Left Side Slope 10 Right Side Slope 2 Low Flow Liner Retardence Class C 6-12 in Vegetation Type Bunch Type Vegetation Density Good 65-79% Soil Type Silt Loam(SM) S200 Normal Permissible Calculated Safety Staple Phase Reach Discharge Velocity Mannings N Remarks Depth Shear Stress Shear Stress Factor Pattern S200 Straight 1.94 cfs 4.4 ft/s 0.15 ft 0.031 2.3 lbs/ft2 1.4 lbs/ft2 1.64 STABLE E Unvegetated Underlying Straight 1.94 cfs 4.4 ft/s 0.15 ft 0.031 1.68 lbs/ft2 1.06 lbs/ft2 1.59 STABLE E Substrate S200 Reinforced Straight 1.94 cfs 3.47 ft/s 0.18 ft 0.043 10 Ibs/ft2 1.69 lbs/ft2 5.91 STABLE E Vegetation Underlying Straight 1.94 cfs 3.47 ft/s 0.18 ft 0.043 2.3 lbs/ft2 1.24 lbs/ft2 1.86 STABLE E Substrate Rock Riprap Normal Permissible Calculated Safety Staple Phase Reach Discharge Velocity Mannings N Remarks Depth Shear Stress Shear Stress Factor Pattern Rock Riprap Straight 1.94 cfs 4.28 ft/s 0.15 ft 0.032 2 lbs/ft2 1.09 lbs/ft2 1.84 STABLE -- Unvegetated https://ecmds.com/project/159789/channel-analysis/263712/show 1/1 Hydrology Report Hydraflow Express Extension for Autodesk®Civil 3D®by Autodesk, Inc. Thursday,Apr 11 2024 Swale 1 C Hydrograph type = Rational Peak discharge (cfs) = 3.287 Storm frequency (yrs) = 10 Time interval (min) = 1 Drainage area (ac) = 1.440 Runoff coeff. (C) = 0.3 Rainfall Inten (in/hr) = 7.610 Tc by User (min) = 5 IDF Curve = Waxhaw.IDF Rec limb factor = 1.00 Hydrograph Volume=986(cuff);0.023(acft) Runoff Hydrograph Q (cfs) 10-yr frequency Q (cfs) 4.00 4.00 3.00 3.00 2.00 2.00 1.00 1.00 0.00 0.00 0 5 10 Time (min) Runoff Hyd -Qp = 3.29 (cfs) Hydrology Report Hydraflow Express Extension for Autodesk®Civil 3D®by Autodesk, Inc. Thursday,Apr 11 2024 Swale 1 C Hydrograph type = Rational Peak discharge (cfs) = 3.287 Storm frequency (yrs) = 10 Time interval (min) = 1 Drainage area (ac) = 1.440 Runoff coeff. (C) = 0.3 Rainfall Inten (in/hr) = 7.610 Tc by User (min) = 5 IDF Curve = Waxhaw.IDF Rec limb factor = 1.00 Hydrograph Volume=986(cuff);0.023(acft) Runoff Hydrograph Q (cfs) 10-yr frequency Q (cfs) 4.00 4.00 3.00 3.00 2.00 2.00 1.00 1.00 0.00 0.00 0 5 10 Time (min) Runoff Hyd -Qp = 3.29 (cfs) 4/11/24, 1:40 PM ECMDS 7.0 NORTH North American Green AMERICAN 5401 St. Wendel-Cynthiana Rd. Poseyville, Indiana 47633 GREEN Tel. 800.772.2040 >Fax 812.867.0247 www.nagreen.com ECMDS v7.0 CHANNEL ANALYSIS >>>Swale 1C Name Swale 1 C Discharge 3.29 Channel Slope 0.03 Channel Bottom Width 2 Left Side Slope 10 Right Side Slope 3 Low Flow Liner Retardence Class C 6-12 in Vegetation Type Bunch Type Vegetation Density Good 65-79% Soil Type Silt Loam(SM) Unreinforced Vegetation Normal Permissible Calculated Safety Staple Phase Reach Discharge Velocity Mannings N Remarks Depth Shear Stress Shear Stress Factor Pattern Unreinforced Straight 3.29 cfs 1.68 ft/s 0.42 ft 0.062 4 Ibs/ft2 0.78 lbs/ft2 5.14 STABLE Vegetation Underlying Straight 3.29 cfs 1.68 ft/s 0.42 ft 0.062 2.13 lbs/ft2 0.49 lbs/ft2 4.37 STABLE Substrate https://ecmds.com/project/159789/channel-analysis/260450/show 1/1 Channel Report Hydraflow Express Extension for Autodesk®Civil 3D®by Autodesk, Inc. Thursday, Feb 22 2024 Swale 2 Triangular Highlighted Side Slopes (z:1) = 5.00, 7.00 Depth (ft) = 0.42 Total Depth (ft) = 1.00 Q (cfs) = 3.040 Area (sqft) = 1.06 Invert Elev (ft) = 526.83 Velocity (ft/s) = 2.87 Slope (%) = 3.00 Wetted Perim (ft) = 5.11 N-Value = 0.030 Crit Depth, Yc (ft) = 0.44 Top Width (ft) = 5.04 Calculations EGL (ft) = 0.55 Compute by: Known Q Known Q (cfs) = 3.04 Elev (ft) Section Depth (ft) 528.00 1.17 527.50 0.67 527.00 - 0.17 526.50 -0.33 526.00 -0.83 0 2 4 6 8 10 12 14 16 Reach (ft) Hydrology Report Hydraflow Express Extension for Autodesk®Civil 3D®by Autodesk, Inc. Thursday, Feb 22 2024 Swale 2 Hydrograph type = Rational Peak discharge (cfs) = 3.036 Storm frequency (yrs) = 10 Time interval (min) = 1 Drainage area (ac) = 1.330 Runoff coeff. (C) = 0.3 Rainfall Inten (in/hr) = 7.610 Tc by User (min) = 5 IDF Curve = Waxhaw.IDF Rec limb factor = 1.00 Hydrograph Volume=911 (cuff);0.021 (acft) Runoff Hydrograph Q (cfs) 10-yr frequency Q (cfs) 4.00 4.00 3.00 3.00 2.00 2.00 1.00 1.00 0.00 0.00 0 5 10 Time (min) Runoff Hyd -Qp = 3.04 (cfs) 2/22/24, 11:53 AM ECMDS 7.0 NORTH North American Green AMERICAN 5401 St. Wendel-Cynthiana Rd. Poseyville, Indiana 47633 GREEN Tel. 800.772.2040 >Fax 812.867.0247 www.nagreen.com ECMDS v7.0 CHANNEL ANALYSIS >>>Swale 2 Name Swale 2 Discharge 3.04 Channel Slope 0.03 Channel Bottom Width 0 Left Side Slope 5 Right Side Slope 7 Low Flow Liner Retardence Class C 6-12 in Vegetation Type Bunch Type Vegetation Density Good 65-79% Soil Type Silt Loam(SM) Unreinforced Vegetation Normal Permissible Calculated Safety Staple Phase Reach Discharge Velocity Mannings N Remarks Depth Shear Stress Shear Stress Factor Pattern Underlying Straight 3.04 cfs 1.73 ft/s 0.54 ft 0.062 2.09 lbs/ft2 0.5 lbs/ft2 4.18 STABLE -- Substrate Unreinforced Straight 3.04 cfs 1.73 ft/s 0.54 ft 0.062 4 Ibs/ft2 1.01 Ibs/ft2 3.95 STABLE Vegetation https://ecmds.com/project/159789/channel-analysis/260451/show 1/1 Channel Report Hydraflow Express Extension for Autodesk®Civil 3D®by Autodesk, Inc. Thursday, Feb 22 2024 Swale 3 Triangular Highlighted Side Slopes (z:1) = 3.00, 3.00 Depth (ft) = 0.56 Total Depth (ft) = 1.00 Q (cfs) = 2.670 Area (sqft) = 0.94 Invert Elev (ft) = 521.28 Velocity (ft/s) = 2.84 Slope (%) = 2.00 Wetted Perim (ft) = 3.54 N-Value = 0.030 Crit Depth, Yc (ft) = 0.55 Top Width (ft) = 3.36 Calculations EGL (ft) = 0.69 Compute by: Known Q Known Q (cfs) = 2.67 Elev (ft) Section Depth (ft) 523.00 1.72 522.50 1.22 522.00 0.72 521.50 0.22 521.00 -0.28 520.50 -0.78 0 1 2 3 4 5 6 7 8 Reach (ft) Hydrology Report Hydraflow Express Extension for Autodesk®Civil 3D®by Autodesk, Inc. Thursday, Feb 22 2024 Swale 3 Hydrograph type = Rational Peak discharge (cfs) = 2.671 Storm frequency (yrs) = 10 Time interval (min) = 1 Drainage area (ac) = 1.170 Runoff coeff. (C) = 0.3 Rainfall Inten (in/hr) = 7.610 Tc by User (min) = 5 IDF Curve = Waxhaw.IDF Rec limb factor = 1.00 Hydrograph Volume=801 (cuff);0.018(acft) Runoff Hydrograph Q (cfs) 10-yr frequency Q (cfs) 3.00 3.00 2.00 — 2.00 1.00 1.00 0.00 0.00 0 5 10 Time (min) Runoff Hyd -Qp = 2.67 (cfs) 2/22/24, 11:54 AM ECMDS 7.0 NORTH North American Green AMERICAN 5401 St. Wendel-Cynthiana Rd. Poseyville, Indiana 47633 GREEN Tel. 800.772.2040 >Fax 812.867.0247 www.nagreen.com ECMDS v7.0 CHANNEL ANALYSIS >>>Swale 3 Name Swale 3 Discharge 2.67 Channel Slope 0.02 Channel Bottom Width 0 Left Side Slope 3 Right Side Slope 3 Low Flow Liner Retardence Class C 6-12 in Vegetation Type Bunch Type Vegetation Density Good 65-79% Soil Type Silt Loam(SM) Unreinforced Vegetation Normal Permissible Calculated Safety Staple Phase Reach Discharge Velocity Mannings N Remarks Depth Shear Stress Shear Stress Factor Pattern Underlying Straight 2.67 cfs 1.61 ft/s 0.74 ft 0.065 2.32 lbs/ft2 0.44 Ibs/ft2 5.27 STABLE Substrate Unreinforced Straight 2.67 cfs 1.61 ft/s 0.74 ft 0.065 4 Ibs/ft2 0.93 Ibs/ft2 4.32 STABLE Vegetation https://ecmds.com/project/159789/channel-analysis/260452/show 1/1 Channel Report Hydraflow Express Extension for Autodesk®Civil 3D®by Autodesk, Inc. Thursday, Feb 22 2024 Swale 4 Trapezoidal Highlighted Bottom Width (ft) = 2.00 Depth (ft) = 0.07 Side Slopes (z:1) = 10.00, 2.00 Q (cfs) = 0.480 Total Depth (ft) = 1.00 Area (sqft) = 0.17 Invert Elev (ft) = 530.66 Velocity (ft/s) = 2.83 Slope (%) = 15.00 Wetted Perim (ft) = 2.86 N-Value = 0.030 Crit Depth, Yc (ft) = 0.11 Top Width (ft) = 2.84 Calculations EGL (ft) = 0.19 Compute by: Known Q Known Q (cfs) = 0.48 Elev (ft) Section Depth (ft) 532.00 - 1.34 531.50 0.84 531.00 - 0.34 Z / 530.50 -0.16 530.00 -0.66 0 2 4 6 8 10 12 14 16 18 Reach (ft) Hydrology Report Hydraflow Express Extension for Autodesk®Civil 3D®by Autodesk, Inc. Thursday, Feb 22 2024 Swale 4 Hydrograph type = Rational Peak discharge (cfs) = 0.479 Storm frequency (yrs) = 10 Time interval (min) = 1 Drainage area (ac) = 0.210 Runoff coeff. (C) = 0.3 Rainfall Inten (in/hr) = 7.610 Tc by User (min) = 5 IDF Curve = Waxhaw.IDF Rec limb factor = 1.00 Hydrograph Volume=144(cuft);0.003(acft) Runoff Hydrograph Q (cfs) 10-yr frequency Q (cfs) 0.50 0.50 0.45 0.45 0.40 0.40 0.35 0.35 0.30 0.30 0.25 0.25 0.20 0.20 0.15 0.15 0.10 0.10 0.05 0.05 0.00 0.00 0 5 10 Time (min) Runoff Hyd -Qp = 0.48 (cfs) 2/22/24, 11:54 AM ECMDS 7.0 NORTH North American Green AMERICAN 5401 St. Wendel-Cynthiana Rd. Poseyville, Indiana 47633 GREEN Tel. 800.772.2040 >Fax 812.867.0247 www.nagreen.com ECMDS v7.0 CHANNEL ANALYSIS >>>Swale 4 Name Swale 4 Discharge 0.48 Channel Slope 0.15 Channel Bottom Width 2 Left Side Slope 10 Right Side Slope 2 Low Flow Liner Retardence Class C 6-12 in Vegetation Type Bunch Type Vegetation Density Good 65-79% Soil Type Silt Loam(SM) Unreinforced Vegetation Normal Permissible Calculated Safety Staple Phase Reach Discharge Velocity Mannings N Remarks Depth Shear Stress Shear Stress Factor Pattern Underlying Straight 0.48 cfs 1.96 ft/s 0.1 ft 0.053 1.56 lbs/ft2 0.72 Ibs/ft2 2.15 STABLE Substrate Unreinforced Straight 0.48 cfs 1.96 ft/s 0.1 ft 0.053 4 Ibs/ft2 0.89 Ibs/ft2 4.49 STABLE Vegetation https://ecmds.com/project/159789/channel-analysis/260453/show 1/1 American Engineering Associates-Southeast, PA. 8008 Corporate Center Drive,Suite 110 A AMERICAIV Charlotte,NC 28226 OFFICE:704.375.2438 Engineering www.American-EA.com The Shops at Prescot Village—Waxhaw, NC 28173 Stormwater Pollution Prevention Plan Appendix A-10 Pre and Post Development Drainage Area Maps PRE DEVELOPMENT �I -IIII I =i - / 1.10 TR55 Tc Worksheet I'I �/ A i/ //` \ \ n I Z DRAINAGE AREA=18.25 AC - a Hw,.w„avdev.ph.Extension m,wmd...aua.91Nwd IncQma IMPERVIOUS AREA=1.67 AC / \ 1 - / j�_ �\\ \\ ,\ ---� o . •/) r - - - _ 0 0 m Hyd.No.1 CN=69 / „ // ����jam_�0t1s-� i� �i- \. o \\ _ 1 \ /�- r I L' "off Pre Development Tc=15.94 MIN / --I I- - % %' /Pi 1 \ D\ I I) 1` / cB \-- I q� U AL \ / --- %-�-% ( / OC VIJ1 Descrtotion A a a SOlili ,� - / "y"i /�--%% / / B SIBSI ) a W u'� Sheet Flow - o..-_ iii% �i-- (/PF I"�I'.,I / I6' 1'T ' -IW I __ 00 MannTng's n-value =0.400 0.011 0.011 //� / ���1 / I / / / cB �Q Flow length(R) =100.0 0.0 0.0 --' / 7.i% -%/ I 5 Two-year 24-hr predp.(in) =3.56 0.00 0.00 -� -j� ����--% --� !�.- I ) "I I III i I B0051619 -. ` 2 g ro Land slope(%) =10.50 0.00 0.00 - -//i//� % - �� /' / ./ I I /nS1164Ay o N - %i / - /r !III I / / / V Outsta QLLJ i'om Travel Time(win) =10.49 . 0.00 « 0.00 = 10.49 - -% !����%� % /�-�� /' I .? "1II J/ / A\ - 7N w`o z Shallow Concentrated Flow /���i� %ii'i% -_ ' --I-It �/i�-/��,;�/ I/ // I -1 c?6 II Flow length(R) =646.00 0.00 0.00 i -�//� % S�% _. / / V /, </ �t 1 / ,�' 1 1 �� e 0 F Watercourse slope(%) =2.30 0.00 0.00 % //""-7%�7% 7 / / ( / r // �3'/yq \ / J y m ro Surface description =Unpaved Paved Paved i%i�i� /�iii� -/ r' ( (/ .� / / -- B`CSEdYEBE4tB i\ E 8 t Average velocity(fUs) =2.45 0.00 0.00 7,..i% i-��i % ,' / \ \ / - - - 100 / / MENT /1 I I \ \\\\ Q co U Travel Time(min) =a.4o . o.00 . o.00 = a.4o ` . ' /% /%i /.- --/ A �2 \ / /� i /� �/ / - j 1. //III \ / V AIAA 1 //j, % oo / / 1of - r _ Y II II I 1\1 loo iiir, Channel Flow / j /i� i • /� - / f l 1 ,.``,� rrCA O X sectional flow area(sqR) -9.60 0.00 0.00 _ ii / // / - 11 II ,�``o�,N....R,i•, Wetted perimeter(R) =11.00 0.00 0.00 �i--�/ i /ip-5OS05 '� \ �' 1 I I 2 d AMERICAN 9 Mano n Channel value) =0.023 0.015 0.015 //:2 . / 7 5f mOa�Emt fir •- 4. �4� /(_ -_4 / OFFSITE TO D O NORTH 0 52 FI I CI I`I / I I BENGINEERING$ 9 -"'/ /- • ; +JFrr / " - �/ IL�E PHASE BI MP(TO NORTH OF r -�5'I \ = SASSOCIATES%z=Veloc Ws =6.20 - �' / / ( r/ -'/. / I I =m° Q,b( ) '/ -- 4'//� ��, j / /G SHOPS AT PRESCOT GLEN)WHEN Og EB I/1 �>{eSOUTHEASTjti, U.00 0.00 - -"- 'i' /- P�p / 4,4 ' / DEVELOPED PER NCDEQSTORMWATER B0051S I A - r-1561 CB I : T�e,C 3881o�'�Q': /- l r(.TWELVEMILE CREEK ���v'//// e - C4" �� PERMITSW3200701 , �' /nS.!SBSE 10'ypt BG1261 :-III '''-�rF �1(�.•`���Flow length(R) ((0))391.0 0.0 0.0 / / / FLOODPLpIN) o - v >v 1 / BO('91801 /n5pp F NO°t'049/yMovumenf�� /n5 A OF A1Gb / / J .o dad./,v �!�i,(/ /i /os¢cas cB oars�5 s�anama /ns I Travel Time(min =1.05 ♦ 0.00 ♦ 0.00 = 1.05 /�- 461.14 Yea//v,db),/ v -,, '�/' .-7I/� 112 B 0997S4L / cB ' 1_ j A I MdPB7�447 \�\ /\/ \ / � OCS1701 \ \ OatCB _ ,,9 Imo. \ ,l /// /A /�� / Oat OB21 ) /nSOB51 tB SIZs, Vjb/16 aid\'/ / �/ / i // �V Ak 'Ch�'.VAIi �\ x50B46 /Once%rvv- \ \\ '/ h/eh O�sOs �// d \\ e•' p0-Y<%Total Travel Time,Tc 15.54 min ^J /Z /� !�/�k / '\ �/ ( , \ N / /n50B51S /once%ov B 1OVERALLCN VALUES - IIIII / / its - / / - 1 l 1 I \ \\ 'el, \ \\ \ is "--Sar.4tOVJ IS84t - \�\ 5,5 - ` �' 9 'GI / � �' etaePre Develo merit %OF AREA l / II I I / / / Y \ \ / -. ,4 - I \ = T"sP - S _SOILS CN PER COVERTYPE /� / �/� // vA// / I///�1/I- v v aw•r >by v 20 Setbacf �® ���I ( \__ / F (, \ s�3$046 a__ - / //" �� --\ IIII �' -x4) ., P ,� �[20 V(t1 a GROUP OPEN IMPERVIOUS / ' / -,� i- / J / / /I - / A �F '41 lrcr 'B 61 98 60.0% / /- / 'F� / //I I f / / ` _ _..'_`_ '- --.., a�� \` _JF---- - \ .....................R fo a C 74 98 40.0% - / �/ ,./BOZ319s I�/r I I I_// �- ���� - \ II II N _ - c, - II '- RY M. •,..•` 51357 QG S q PrestvtG/enPar.(•�a yy�� I , 1.° - / / o/ / -i/li S( �/1 / / -� ��.V OOil�s -ss_ s�-©-ss--ss-4l ss- ss .,-- - - - - / II_ - _ \ / ��/ - .�O / 51356SE`-////f/- '� -- II`•o Yariab/eW/vYhW D/ Y°'m�F ti ^dl III - -_�. Pre Development / / LYit-SI7 /i\ q,Q / --- -w jilt, I- /�� / /// - 5.14E-�/ ys / v"' 6 ^II h- - _- VCOVERAGE AND CN VALUES / ^ � / //i7� 0 /�2/ _ 5 R� / II MIIII'h/ / /i /i/ / /// 52 !/ / 4'') ,�� _ - w -i---1v- =w w_.cII II v v v AS1p� o \ i' II, / - AILAND GROUP / -USE AREA B C CN AREAz CN / / /.,-v, ('-I / ".!� �// -I �..� %-7 / I�il�. �,-� � � y" - -zer,A ) w ' 'r c �m .r•mrAjy�irr ...'AiII ��- 11 ac ac/CN ac/CN /'� _11 . -✓s ( ) ( 1 ( ) / / _ I / /- -` : / / _ v.� Y - emsv A /Ps / � II 1 1 Ulm v ` _4� cr¢ 1 OPEN 16.58 �61 743 66 1097.60 / SpO�� ��� - ' /'� rrvE� ��--- v� �1� `\. BO[' v �-- - NC'517.� 0� ---� '�'CB Oiy / __ Ir / / �T- /% / -"TOP' j!- V szo\ w am _ s1a \ ii B rz74yJ aarsla so y� _ - / / - SIB \\\ 9- zs 52 '/ / / - / / // ' / / //// /z ./ %/ \\\. / lr �� ` •_ - t'ion Jf' _ vnN \\ �jl•�' IMPERVIOUS 1.67 1.00 0.67 98 163.66 - / ,''--a ' / .'" - �/ / / / k \\ --- - -- of � 98 98 / / � %/ / / // O 7 _ _---- � - - _ -- ---_ - - �'70rs � I \ /-- / ,� i / / //// i /'<-i - i v � . . - - - - - 1BP.•= _ , moo -' / /i/��' . - ' /, 510� / //' / c✓ 7(( ' - - = Bocsls _ = _ et I I TOTAL 18.25 69 1261.26 _--'r / / , i/i �= / 2 //z%Bars AIL_---- .' \ iA1: _ =��� 0 - _ A ---_ -``- _�-Cff - / 51970 \ �/ '+Ts-fl ! _ - - \ II -/-, / /i% %�� / r - �arsls v A oats --_ _----Foes 1 .. _____' _ - / // -�� i'��_-- r z /r///, r/ L=391 FT- V A V OremB may. / �� / ) /sz1z E;/ ! al+ 11 \�- / r / / / / /// / rCHANNOW- 1 1\\\ \\� cot \ 1054N J ---_1 /n IZ47� I.k I I in PRE VS POST DISCHARGE SUMMARY TABLE \\ / r ,S. 2YR-24HR 30YR-24HR 25YR-24HR SOYR-24HR 300YR-24HR \ \ \ \ r / // 'n 51166 /r `� S-i1% - J I\ \ \ \�� / 1 •. PB - u ' \j I I I-I'\ ce ce / r d/// / �� / I ire. / / 0atsz1.z0, 545.E i, / / cc \ isB9 A /- 11 PRE(CFS) 21.27 47.70 66.18 81.65 98.48 / l / 7 ! r - Out516 /7/r ,n=0.023P&i V A v� --/ // v�n'�,:3 / '- �' / /� / / /// /. / �_� .497E yz ,/// / - To e2"\'\� '\ �\ i..// , I, B6"PVC \ / ' 11 POST(CFS) 5.99 45.99 85.42 116.98 144.32 / ////////// //- V /i �/ //j�/ ,.� YVp=11FT/ �ir3pB.F_EB � ..._- j//l ,799N�7 / ' �\ / \ �II DELTA -15.28 -1.71 19.24 35.33 45.84 /�7/////// //// ✓ . / / ,j / / \1 - AREA=9.6 SO OatsOBO PaCSE ,�� ��---▪ %�/ r / -- / Yc •, 1 `- a BMP 1 ELEV. 510.49 511.53 511.91 512.14 512.31 / 6.// '//i / / 5`" ' / /' ,-/ Z// / -'/ - N//� ---/ I _ ___ I' / �/ / /' --- I I= v fr d �069 ���- '1 ytio� r,// i' �' /vv / v Iv / / /' / - Ji v/ , z 'FREEBOARD 2.51 1.47 1.09 0.86 as ////% / -EASE / / / ' \ �' \ 1 -%_�� �_ L-1 / // / - .r // / 51671N{y / A V / /i // /� - cs90/ / 16, Ca �� * North Carolina 811 %�� _ § / / ' S-- % / / / / / •3De Before Di -1�! _-'-� ��- i - /,�l / / j / / _- -- l / \ / // / / •g 'yBB \/ 'r 811 or 1 800 632 4949 %S�c'�i�r-' - cB /l �yb'f ri/ // / / \� A - ----'_- �' //n. OiB4S / I�j' ,/ v / Remote Ticket Entry //--- B�'S i/ - / / `1/%/ / // / \ --- /---- - O,,// /1 / , l Y he //nc811 org/remotenck ney.him --%nS148 //j i'/ ,:((1:// ���Vi ( / \ ___ /l //� CB/ %''B N / / / c . // / - - / �- \_,/-�`\ \--/ /--�� -'r y J - /n 0 y ✓ // STIPULATION FOR REUSE �/ �a. ,�` / 4// / / / -_ A 630, � / l _, OR USE / - / G / \---J - \\ - // 76r` ':"/•' 1/I / ONINTHE SPECIFIC DRAWING SITE,E NAMED PARED H HEREON, r / ""' ,4/ / \ /' -OaASB/4/ ,r // CONTEMPORANEOUSLY WITH ITS ISSUE / ��_-_ / i / // -- / \ ` \\ /�� / / // \ / // DATE AS LISTED,HEREON,AND R IS NOT s�4 - li / �/ / �' - / ,,✓ I -_I / SUITABLE FOR USE ON A DIFFERENT n ,ems ��, /- / / _ / / O ///�� / 07 / PROJECT SITE OR AT A LATER TIME. __ /I/PF/ / / \ - /�/ I I �' �! ,D.)/r �/ USE OF THIS DW1`MNG FOR REFERENCE OR _J-ss / / / / _- / `\ i I / N EXAMPLE ON ANOTHER PROJECT REWIRES - 8.'I �-II"= ss-1,S�ss - \ ,•. + ' //// / / ' / 1 / \ r / / II /// THE SERVICES OF PROPERLY LICENSED \mow- / / / �' 7 / '\ 530- OF THIS D AND G FORERS.REPRONUCPON _ �� p< // / / -- \ / - CB I / / OF THIS DRAWING FOR REUSE ON /- _ ss /// / / p _--- \ // - a436 II � AND MAY BE CONTRARY TO THE LAW. -�� _-- _---� 4////// / // / 53 / \/` ��- \ \ -, // _/ �' / 0t 1 11 '// ANOTHER PROJECT IS NOT AUTHORIZED •� ,,. -jam r -� ltttt/ %%/i / -/ / // / r\ // N I/ p hi I v / - \ SHAZOWfONCENTRATEO FLOW i CB R o 1 w-3-w% _ -- / _-yam '/r. - / l / \ �/ / L=646 FT / A, II 1-1 IA cr -� -Bgr,-?o,9 S'y.AN,' � 04 / -/�/ / /' �v-_ - / / c\ // Oat B e 4-, ;r I / t�- 0 5 1on�__- _ _, \- �' / _- ,vv �'\ s ��11 l/I AI/ Q Q 3 c) %II '-� -V1 z - ____- i- / / / / / / /• -- / / 1/ / i I I . ct Q / / col I w - aX} MEN - Ps / -' ' // �il� �I Q w�Z / / -- - / / I I 1 I r a U O O 5 / / / / / -- �o --_-_- ' III i 1 W (/) U O z / - / v V I Li w I-D i =- ---- - _- _ ----- - - - - - - -_-_LT -- - - _ ------- ------ -�- - _ - - - --� _ - % II _a510= _ - __ _ __ --- _ ----------------------- _ _--- - -- - - - - - - - - - - - -- _ --------- --- \ 4) JOB NUM C220082 SHEETFt�� � I • _ - _ -- ---- ---- - --- - - - - 4 DATE Loe�'� I _ ---_ -s=_===- __ - _ _ ----- --_ ____-__- - _- - _ - -- - _ _ - - _ - _ -___--_---_- ---_ - - -50- _=-__�gy �.�►I�1'� 04/22/2024 19BfT r / --II ��� DESIGN BMF ss�- -.- - -_- _ ------------------ --------- -------- _ - --- ----- - - --z--_----- - --- _ E _�trt n " i ... ._��crt� _/__---- __ __ _ - - _ - - - _ -gam- - - -- _ __ - - - - -_ --- _- __-__ --e- I / / , SHEET TITLE: ,yam _ - /� --- _ --- ---- - - - ----------------- -__ -- _ - _ - - - - - �� i=� o - - r�=_ _'- _ = _ ------ ��1 z=- �--,-.""" e03kRoa _ DEVELOPMENT y �' - N0 , \ - - _ - Vcable Width VublK �' -` -_- _ / GRAPHIC SCALE DRAINAGE i/, ----r__4_� � `ors+ - o ;1-- r-'°/' I ` _ sn n 25 sn ee AREA MAP S - ..s�-pg sE-mac-a \-� _ <�e - - � _ R__.'-- 1 r _----pp- 1 P / f^ 'T I - - - SHEET NO.: o PP - oe--oe--aE_ \R. \ �__-- - - - -� -----,,, =o 7" / 7 I Yj l I \ \ \ i < I \ l (IN FEET) 7 a II I A�0e��e- °E--or -a€ a �r=_°c -oe_�i - �-�. ---PP / /�� / 'I II I finch=50ft. ��rr/ 3 r Post Development Detained BMP POST DEVELOPMENT III �Ol \\ `,, 1I - / I Z �L OVERALL CN VALUES I / / / IL \ 6 DRAINAGE AREA=18.25 AC / 1 I _ -' \ 1..\..., / oSOILS CN PER COVER TYPE IMPERVIOUS AREA=11.37 AC \ /� / ��\�\ \ ---� oQ• L M %OF AREA / '• �v_GROUP OPEN IMPERVIOUS CN=86 / -, / //777 % / ''�- AAA v 1 V / L. '- B 61 98 60.0% Tc=SMIN _ f I_ ���j% ��� \ ��,I I �I l \-_ q� d' C 74 98 40.0% \ - - =i%/ j -- I I / \ Fl L / i \ 1 I a LL W din Post Development Detained BMP // j-77 /// ' I)I 1 O I Wy COVERAGE AND CN VALUES - jj j. /I / / I ( IIII I IIr / / , r' C ¢� LAND GROUP GROUP /�' ' / % --_/ !�, ) I // � .. c �'U USE AREA B C CN AREA CN .- /%--12 %�/ / / ' '/ �/ ---\_ / Ilill)1 1 / .7 \ \ ° LLI c d SA (ac) (ac/CN) (ac/CN) //' :%=1 -o- /'- / //. I 1/III/ / / \ J U O1°U 4.13 2.75 / j / ��j - �/ // ,�I - --- /// / / / \ I I 1 ` w az OPEN 6.88 66 455.46 // // �/ -- / o hi- / 61 755 --- �/� /i/� / _/�/ i� v� / / I 1 A� �Oo� /% / -/ ( 1 I- - �,/ /� / - Ate.-�/ / ����� �1� Eot IMPERVIOUS 11.37 98 1114.26 %% V /%/� iI 98 98 i%//iy/i // i \ / t00 / / I 1 1 I \\\6.82 ¢... TOTAL 18.25 86 1569.72 i - -/�'��'/� / -- / _ -�// / / / \ V A ii��' '/ �i/,, i 1 !'=_ I \ II III\1 loo ,mrrrr; Sri' / - - /� _= 11 \CAR PRE VS POST DISCHARGE SUMMARY TABLE / /�� /�/ �/// /- /' / . - -- -\ 77--/ ^ II 1 �I 1 I t :,�ooQ''C°°°°`° p0�/.',, /%/ // i _ /�( s �520� 1 1 1 I I 28 AMERICAN o 9 s 2YR-24HR 10YR-24HR 25YR-24HR 50YR-24HR 100YR-24HR/ / /8-/ /i//// / -/ / ftom / x ��j / _---/ f OFFSITE AR O'DBAINT PRES�OT VILLAGE II` / _ S PRE(CFS) 21.27 47.70 66.18 81.65 98.48 � -%/ - ��� / �///- / fsmc / I j ///� �52 pRESCOT GLEN)WHEN DEVELOPED PER NCDEO f - S.ASSOCIATES g _//// 5 / / o/ an TWELVYMIL �_�` / 0�' II I 2 o S.ASSOCIATES%z c r POST(CFS) 5.99 45.99 85.42 116.98 144.32 "..:-,,..)-,-/-:-"*--' /J/ / //-- (/ .t /'// STORMWATER PERMIT SW3200701 III I / _ eSOUTHEASTjQ A ' , / T° C 3881 DELTA -15.28 -1.71 19.24 35.33 45.84 /- /- \ I---' ` �a Q'. / / /FLOOD ♦ i. / \I I„ ZOsetbaci �''.Te OF A� o•`°: j -1----' / I / / - o / / ��� ,- " ' / I I _7/ � FEMAMaP37yyg7/ /� % - - �-_ /� �1� A-�- III / I V �� - % IP, � i suns t • ,__ � =_ ____ __ --��/ /// /JI / /// '� ill , OO \�%_�'"ssmc JIFI \ �\ // • w. O4,�i''• / / / / // / // / ASV II I ( �Vt.�oVow�mw // V g -/ j . �\ ` �� 520- - s I 33048 9 5� / i' -��� -. ,, ;ia..� III!I.IIIIIIIIII � �i � �N E �,� '_- / -'\ ( - / /,.° ,yQ .�i � i\ II PrescvtG/enPat�'�a II` 8` sc-li I / -/_1I - _ ' - ill,r---i--- .. / / / -/ II Val/able W/vYh II II - II / - -� - --_i 1 / /--�-- /� / / 0''4. / j / \\\ OO iF ss ss -©-ss--ss�l-ss _ss Jl=a c retrvb / II \� • r w �v 51 I/ ' �� wl=w w �_ .s / / 7 / (-../ _. '1: - \ •.ti�.v�r.m�a+.�rrv.ruunm nlaial��� a_"A. II 2. // I_, / /j j/"�.� -i/ 491,4 /. /7 /// / ��z/`,,ram V� -r ses,. �_ \I p � ,-:.,•a��i�" II I.41k _ 1,\\� V1°- (!ram -. --_-__- / . \ - -�/ / - / 111 r / /� �I -- _--__ onvfjs -'%on , �� i ,- fir,r - _, - - - - - � __- _ _,' �__ ��f ,.;�:•� /ti y /ice// �� I� i \ =,\ I� ��� I_ \ --__-�„ ____ .\, - _-- ___---_ / z /why!/ ` �!" \ \ , \(\ � ;' ___ 1 , . . 14,„ , li ii 11%// ,/ / / / / / ' :. ��.�/ � / �'�/ ��- i�/r��l`rs_\ , • ���I / _ ��� N��I /� /\/ /SbG �y /9,,,,,z/ y / 7 I /, 1 L................. %/i z,7'"9 AN07_,_ - .',.. : / r ,N, _ _ - - I;A-•-•ea --- „., ,&;" /7 -- ,/ / ___,, ,-, , f /,, //-s;_ ,/,Al. ;,r. - -.:.... -' oL PA....iiiIlitlim , ' , , • North _ pi �j � i /'1 /`" s,�'i /1,/,/ �,�' / /_' ': � \ / Szg -� /�/ 93i ® /� / /0''G ,/ AI/ 1I i1_I \ �iar�tAa\�%-- _ �_ I . /ii _ d /' .Elm - -_�-_ / , / i� I A rs sinsi i 7 '�" �/� _ - it _ `- /' O // �� / 3NortltCarolmO2 Bll �;- -�/` �j�� / 0 dILL s ,/ kBue�l600eszav4v_ / //�gl / i _ ( / '1 -I- 2Ill � � - � Nlit / /I v / Remote motet an%�/'--- ---�' / / // / /d _ dal ( _ ` J � // \\ /'_ / I/ // ratty.//ne6ll.mx/remotenolmteno-y.hm,i i % s s _ _ / / 1Itl t \ I\/ /1 / STIPULATION FOR REUSE Fj , -' � iI F '�'' '�;1 At // � 'L ` _ �\ / //1 I/� THIS DRAWING WAS PREPARED FOR USE r / 1 \ "` ��= � / ON THE SPECIFIC SITE,NAMED HEREON, d nIMFi •j �J - - I I oz.� -_ -, � �a,� - _ \ �. fi, / / CONTEMPORANEOUSLY,NA RS ISSUE - { / �� �_ �� �� ��� •qq �®�.��� F 1 DATE AS LISTED,HEREON,AND R IS NOT _`$ � -� uV:� ///// . , , �� ,�� / �� \ �� _ '� --- v-/// SUITABLE FOR USE ON A DIFFERENT _ / CaK�`- � \ / /,/,/d / / 1 / , ` -��_�\ _ atui -II \ / PROJECT SITE OR AT A LATER TIME. USE OF THIS DRAVONC FOR PEFERENCE OR y -' ��� .�s�--0-�1 /� �•,? /�/ Y•/I I J/ / 1 �530 Sp - M,°L Z9 1 / \ \/t/II E%PMPLE ON ANOTHER PROJECT W RES _1_ s -- 1 Il �� -Jr-- /-J /-- / / _ \ - �j i I, • / 5�� / THE SERVICES OF PROPERLY LICENSED �'- s' .Cs w / I / / / ` -- - p, ® / ARCHITECTS AND ENGINEERS REPRODUCTION / '� p �` u /l _-� r// " / � // / "�'i,��'�'s®�. p0 / OF THIS DRAWING FOR REUSE ON 1 / _ - - f-__ Ai _---%_ .. �/ I. / --- �� _ f 1 , 1 ' / - I �1' ��II 1 ANOTHER PROJECT IS NOT AUTHORIZED iffor I� / / I rAilt �.53n :4111: , / \ '-I-, �;I l AND MAY BE CONTRARY TO THE LAW. iii ../. 7:S�ws--`�„a�;��_?_ =L � If/1�'/%l� j1 / �J / ' I /' III 'I Ili 1� • w - �_ �� tad:-•F%IB�'�� / i�l / 52_ 6::: 1 5 !. oa L.L.I - ,• . 1 c I _., i/ ," -t. - - ,--,-, -_______----c_-____---__-.,. " ‘ k\-, Itte-;,-4, ____ ......_ill., j, z,,,,,,,aa.a.,_...-' __a_ _ __ , IN 1_ , .1 I __ ._ LL, ,,, _1 ..„ . , .--0,,,,_-/___---,v z_--__---J.,- -,__-:::-_-__-ii\k 1 ..." .: : IL N__/_..„ _ _ __i/ _ilin ___ ___, - /7/ ,_- /,....0- ----- -- ,),Iir . ,i. , ,.,... ,.. „..._ , imb , ill( 1 ',7 f ( ;Ili - ®I a'' 111-J zt + �y r, 0 oZz !:r.4I! o r - IMO - ; 100", \ ...."' __/ / / ii\ \ < Al , „,/,,,,11 , . 11 1 i_ r.<1 _, 1 _, ., __. = � - 530� --- vi -_�- ---- J--_--_-� - -535- .i�. %, / _--- I(( � I �., �.� ,�� ���, J. 41 � -s'3s�J .__--- 1/-/� --_ -//�/ �/ /i pi,/�i�,` II 1(.�r C d II -% - - - -_ -_ - - � - _ - ,��=11' r - _ (_ 1O _. - - __ � • - --� / - , �> i -�i�i- -iit S-- LLL- I ,w \I 4) JOB NUMBER: C220082 ' .•G _z_ ��- - -- !_� _ . jam �-��-�`�z��_ - -�_ - - �T-' // / DESIGN BY: BM �r/ !� _I -�-�'s== __ -- '--T���, -~ - --- - -- --- - -550- _ _ - s //'�/ 'EEpFF,� DATE: 04/22/2024 o • Pv ,-oe�%-o- - --_ _-_ - - - - - - - --- _--- SHEET TIME 1a� - _ �' POST % � \ \ -__ --_ _ _ eon •R�a� DEVELOPMENT _ -�_ --'i'HO v A - - - - - ✓sable Width PublK - ���o v iv - _ _ _= -- «�=� = c GRAPHIC SCALE DRAINAGE =� - ,, ;S�o/ I ��_.�--• se o 2s se 100 AREA MAP II IS --mac=a t- A _ __ _ _ _ __� � / I SHEET NO.: , o PIP 0e--oe-_aE--ee -E_- oe_NoL_. /�'� - - f •• o��o -off 7-/ / 17 I A lro,-/-__ -, I V A A i <I / (IN FEET) a \ of--oe -o€ 4�_`_�E=-OE '0E-�9 ---. --PP / �� 11nth=50 h. C5.8 I I / FHb v -J I / �/ I I \ American Engineering Associates-Southeast, PA. 8008 Corporate Center Drive,Suite 110 A AME.RICAN Charlotte,NC 28226 OFFICE:704.375.2438 Engineering www.American-EA.com The Shops at Prescot Village—Waxhaw, NC 28173 Stormwater Pollution Prevention Plan Appendix A-11 Wet Pond Calculations Project Name: The Shops at Prescot Village Project#: C220082 Date: 4/22/2024 Location: Town of Waxhaw,NC Water Quality Calculations: Wet Pond Rv =0.05 + 0.9 * la Where: Rv= Runoff coefficient(unitless) la= Impervious fraction (unitless) DV=3630* Rd * Rv*A DV= Design volume(cu ft) Rd= Design storm depth (in) A=Drainage area (ac) Drainage Area = 18.25 ac Impervious Area= 11.37 ac la = 62.3 % Find Treatment Volume for 1"of rainfall: Rv= 0.05+0.9 *0.623= 0.611 DV= 3630 * 1 in * 0.611 * 18.25 ac= 40,458 cu ft DV 40,458 cu ft Size the bleed down orifice to discharge the DV between 2 and 5 days. Treatment Volume Stage from Pond Design: 509.51 ft Temporary Pool Elevation: 509.60 ft Temporary Pool Volume: 42,502 cu ft Water Surface Elevation: 508.00 ft Average Depth: 0.53 ft Q=C*A*(2gh)°5 Where: C=0.6 A=Orifice Area in sf g=32.2 ft/sec2 h=Average Depth over Orifice in ft Q=Orifice Dischage in cfs Target Average Release Rate= 0.25 cfs (48 hour draw down time) A=Q/(C*(2gh)°5)= 0.070 sf 10.07 sq in Circular Orifice Diameter= 3.58 in Round to Nearest Pipe Size, Use: 3 in Acutal Release Rate= 0.17 cfs Actual Drawdown time= 2.85 days Secondary bleeders and/or the control structure overflow shall be set above the Temporary Pool stage. POND NO.1 SA/DA Calculations Pond Bottom Elevation: 501.50 Water Surface Elevation: 508.00 Bottom of Planting Shelf Elevation: 507.50 Forebay Main Pond Vol. Vol. Vol. Vol. Vol. Stage Area Incr. Cumulative Area Incr. Cumulative Total (sf) (cf) (cf) (sf) (cf) (cf) (cf) 501.50 0 0 0 4,572 0 0 0 502.50 592 0 0 6,323 5,448 5,448 5,448 503.50 996 794 794 8,118 7,221 12,668 13,462 504.50 1,465 1,231 2,025 9,951 9,035 21,703 23,727 505.50 1,995 1,730 3,755 11,822 10,887 32,589 36,344 506.50 2,586 2,291 6,045 13,730 12,776 45,365 51,410 507.50 3,228 2,907 8,952 15,668 14,699 60,064 69,016 508.00 3,776 1,751 10,703 18,524 8,548 68,612 79,315 Forebay Total Volume: 10,703 cf Main Pond Total Volume: 68,612 cf Forebay Volume % of Main Pond: 15.6% Ok Water Surface Stage Elevation = 508.00 ft Main Pond Water Surface Stage Area = 18,524 sf Main Pond Water Surface Storage Volume = 68,612 cf Average Depth = Main Pond Volume/Main Pond Area Average Depth = 3.70 ft Percent Impervious Tributary to Pond = 62.3% SA/DA Ratio : 2.00 Tributary Area to Pond = 18.25 ac Main Pond Surface Area Required = 15,931 sf Main Pond Surface Area Provided at Permanent Pool = 18,524 sf WET POND ANTI-FLOTATION BLOCK SIZING Project Information Project Name: The Shops at Prescot Village Project#: Designed by: BHE Date: 10/4/2023 Revised by: Date: Revised by: Date: Sizing of Antiflotation Block: Width (If) = 5.3 Length (If) = 5.3 Wall Thickness (in) = 6.0 Top of Structure = 511.0 Bottom of Structure = 501.0 Ground Elevation = 507.5 Bottom Slab Lip (in) = 12.0 Bottom Slab Thickness (in) = 12.0 Volume of Structure (cf) = 185.4 Weight of Structure (Ib) = 27,816 Volume of Water Displaced (cf) = 468 Weight of Water Displaced (lb) = 29,199 Volume of Soil Over Lip (cf) = 190.19 Sumerged Weight of Soil Over Lip (Ib) = 7151.144 Weight of Structure (Ib) = 27,816 Weight of Soil (lb) = 7,151 Total Weight (Ib) = 34,967 Weight of Water Displaced (lb) = 29,199 Factor of Safety= 1.20 Appendices WET POND 1 EMERGENCY SPILLWAY Q100 = CwxLxH15 Cw = 2.6 L = 20ft H = 0.31ft 3 o Q100 = 8.98 cfs [Ili n ,.I Outlet d50 = 6" 1 j 1 1 t I' ,,•I, W = Do La �� 90 pipe t - 13.5 �; i 1' �! l li' ',,:.P diameter (Do) I '" 1 i ' i 1, l: 4l La -� 80 i RIi •'I'in lid 111111 ici ii mil d 141 .1_T.ilwater < 0.5D0 `t��, 7i „ I ' ' IIIIIIIim IIII } •00i1=li40'rN 0- l I11 ,•lil/lili iii 1 I �2illa 1 �i pto� Iii 1I j ';i c;dsnni 'A`!I\P 60 i l l I��111a.1 i .i iIII ,, I'A:111I1i ,:1Il11 1 r dnr nu,i: /r� ''� IIuuIRRIn o I •r1'I'1I11'i117 1' ,,.1 •Hill �'�` } I � �.ti I 'iIi nn!�I i n ro ddealiAil, '4�1��' II�'4i Ili iiling�I IIm�i ���\�J i 5Q i1 111111111111 .1 1 a%aIOid!=IiP4iiliD�iilifidliii liiiiilillnllq° ' ��� � i_` l it/dlliiriil.i` 1 IliM�inini I Irmo 4/ a , ORION' �' lrilill11111 IIIIIII P..IIIII'1IR 4 l, _:Jill I i i a'' = 1 l�l I l��ulal Iui nrt In { ,. III I l i q,,,.. / 1I11 III iiiirli■;ll=li I f 1101111111 lI'l ;I [I l 11+=..::il:Il iilli A itiii Il1iillii�111001l111111 JIIIIII'1111"'" II 0 d ' it ® ■ 1 II llnnrinl;n'; IUII 111111111Ft!III1i _IIII 20 III IIIII a 5 I l I•..' 0/1111 11!i6101111111 1111 �iiiii ii iliii Jiiiiliki:l'illr�""'""" 11111 III III 1 11111111111 11 N;io•Ij IV''iiP'' I t II plipppor.y.`� n 31Im IIIIIu 1 um e=!w �ii i i�1f I �.wal ' lg�il!lalllli�'�ii i�°es �. _Q_ ° i'i iiryryiryry��''1fii Iii !ilj , 10 11 1 III 11 11lll;;iiill ��/��� 1� N■11� �1�' ! I � �1 ir'llll:ilr" iU■ IIIII111111I111111-..111,l .Afi lil 1 , 11Illlllllllllllllm"r 7;i11111111II" 1111110111MIIII I .'� = Illhill!:'i tpg =IM �' P 1111111!!.'iil IIlliii 1 111111111 1 J i�. u illy I nft. 151 111111101111111111111111111110111 1 11 I'I 1 II 1 I III iII Ilia / �1%r 1' illi 11i;.i11: 1�1111 1,'! Illilllii111=�111111:=11�li1liill�il�l! 1 1 J- f. � ��:� . 11111!i1i1,1�roil ' li111111 1111111 1 �NI// . 1111r'l111►111i1'll' 11R 2 N 1 1111 111 I III 1 �� ► �• �1 1'� r . ' III :I � /L� p.. � 11 ,,1 I�IIIILII 11!Di nllll 0 IIIl�I illll�l I I i 1 f'I' I! �} II ,,, i='iFiii • d1i�ISlillllllii�9l rr* 1111111i �l�!llf 111 ��i !(i 1ii, � , =�l iii!!'Q°eil'sii�iFatal■1:1l011o�11111f ii 1��iillII 1 i G 1 !iII 1 dr. _. 1,.�11 a 111111110111:11111111111111101 25 111 0I,e lillydP15ini111111111 111111 a V=.,N . , l'In .i: �i�ilr 1'i1' H' 1 IIIIIIIIIIIIIII`i L i '`•,:i i Ill ,, 1'M_I f • ., ::=�:hi;;•ilMl�i i 11 � �11�1111111RV=2 i ., i L_ ! lio(_rl4a• ors:'s:�l � iiii�ii 11��, l� �i���Il11IlIIb 1, I rt.:: I i 1, V 15 \lii d um....-- �� 1 i 1 1I r 1 1 1 111111/ 1 v 0 3 5 10 20 50 100 200 500 1000 8.98 cfs Discharge(ft3/sec) Curves may not be extrapolated. Figure 8.06a Design of outlet protection protection from a round pipe flowing full,minimum tailwater condition(Tw<0.5 diameter). Rev.12/93 8.06.3 Watershed Model Schematic Hydraflow Hydrographs Extension for Autodesk®Civil 3D®by Autodesk, Inc.v2023 1 2 ED CD 1111 Legend Hyd. Origin Description 1 SCS Runoff Pre Development 2 SCS Runoff Post Development 3 Reservoir Wet Pond Project: Pre vs Post Hydrographs.gpw Wednesday, 04/24/2024 Pond Report Hydraflow Hydrographs Extension for Autodesk®Civil 3D®by Autodesk, Inc.v2023 Wednesday,04/24/2024 Pond No. 1 - Wet Pond Pond Data Contours-User-defined contour areas.Conic method used for volume calculation.Begining Elevation=508.00 ft Stage/Storage Table Stage(ft) Elevation(ft) Contour area(sqft) Incr.Storage(cuft) Total storage(cuft) 0.00 508.00 22,300 0 0 0.50 508.50 25,787 12,010 12,010 1.00 509.00 27,628 13,350 25,360 1.60 509.60 29,530 17,143 42,502 2.00 510.00 31,327 12,168 54,671 3.00 511.00 34,763 33,027 87,697 4.00 512.00 37,251 35,996 123,694 5.00 513.00 39,613 38,422 162,116 Culvert/Orifice Structures Weir Structures [A] [B] [C] [PrfRsr] [A] [B] [C] [D] Rise(in) = 48.00 3.00 0.00 0.00 Crest Len(ft) = 21.33 2.00 20.00 0.00 Span(in) = 48.00 3.00 0.00 0.00 Crest El.(ft) = 511.00 509.60 512.00 0.00 No.Barrels = 1 1 0 0 Weir Coeff. = 3.33 3.33 2.60 3.33 Invert El.(ft) = 503.37 508.00 0.00 0.00 Weir Type = 1 Rect Broad --- Length(ft) = 74.00 1.00 0.00 0.00 Multi-Stage = Yes Yes No No Slope(%) = 0.50 0.00 0.00 n/a N-Value = .013 .013 .013 n/a Orifice Coeff. = 0.60 0.60 0.60 0.60 Exfil.(in/hr) = 0.000(by Wet area) Multi-Stage = n/a Yes No No TW Elev.(ft) = 0.00 Note:CulverUOrifice outflows are analyzed under inlet(ic)and outlet(oc)control. Weir risers checked for orifice conditions(ic)and submergence(s). Stage/Storage/Discharge Table Stage Storage Elevation Clv A Clv B Clv C PrfRsr Wr A Wr B Wr C Wr D Exfil User Total ft cuft ft cfs cfs cfs cfs cfs cfs cfs cfs cfs cfs cfs 0.00 0 508.00 0.00 0.00 --- --- 0.00 0.00 0.00 --- --- --- 0.000 0.50 12,010 508.50 73.88 oc 0.14 ic --- --- 0.00 0.00 0.00 --- --- --- 0.145 1.00 25,360 509.00 73.88 oc 0.22 ic --- --- 0.00 0.00 0.00 --- --- 0.221 1.60 42,502 509.60 73.88 oc 0.29 ic --- --- 0.00 0.00 0.00 --- --- --- 0.287 2.00 54,671 510.00 73.88 oc 0.32 ic --- --- 0.00 1.68 0.00 --- --- --- 2.008 3.00 87,697 511.00 73.88 oc 0.40 ic --- --- 0.00 11.03 0.00 --- --- --- 11.43 4.00 123,694 512.00 96.22 oc 0.43 ic --- --- 71.03 24.76 0.00 --- --- --- 96.22 5.00 162,116 513.00 161.15 ic 0.17 ic --- --- 137.40 s 23.56 s 52.00 --- --- --- 213.14 Hydrograph Return Period Recap Hydrographs Extension for Autodesk®Civil 3D®by Autodesk, Inc.v2023 I Hyd. Hydrograph Inflow Peak Outflow(cfs) Hydrograph No. type hyd(s) Description (origin) 1-yr 2-yr 3-yr 5-yr 10-yr 25-yr 50-yr 100-yr 1 SCS Runoff 12.93 21.27 47.70 66.18 81.65 98.48 Pre Development 2 SCS Runoff 49.63 65.42 108.55 135.41 156.93 179.67 Post Development 3 Reservoir 2 2.579 5.986 45.99 85.42 116.98 144.32 Wet Pond Proj. file: Pre vs Post Hydrographs.gpw Wednesday, 04/24/2024 Hydrograph Summary Report Hydraflow Hydrographs Extension for Autodesk®Civil 3D®by Autodesk, Inc.v2023 Hyd. Hydrograph Peak Time Time to Hyd. Inflow Maximum Total Hydrograph No. type flow interval Peak volume hyd(s) elevation strge used Description (origin) (cfs) (min) (min) (cuft) (ft) (cuft) 1 SCS Runoff 12.93 2 724 41,537 Pre Development 2 SCS Runoff 49.63 2 716 100,596 Post Development 3 Reservoir 2.579 2 780 97,599 2 510.08 57,448 Wet Pond Pre vs Post Hydrographs.gpw Return Period: 1 Year Wednesday, 04/24/2024 Hydrograph Report Hydraflow Hydrographs Extension for Autodesk®Civil 3D®by Autodesk, Inc.v2023 Wednesday,04/24/2024 Hyd. No. 1 Pre Development Hydrograph type = SCS Runoff Peak discharge = 12.93 cfs Storm frequency = 1 yrs Time to peak = 724 min Time interval = 2 min Hyd. volume = 41,537 cuft Drainage area = 18.250 ac Curve number = 69 Basin Slope = 0.0 % Hydraulic length = 0 ft Tc method = TR55 Time of conc. (Tc) = 15.94 min Total precip. = 2.95 in Distribution = Type II Storm duration = 24 hrs Shape factor = 484 Pre Development Q (cfs) Hyd. No. 1 -- 1 Year Q (cfs) 14.00 - 14.00 12.00 - 12.00 10.00 10.00 8.00 8.00 6.00 6.00 4.00 4.00 2.00 2.00 0.00 -. 0.00 0 120 240 360 480 600 720 840 960 1080 1200 1320 1440 1560 Hyd No. 1 Time (min) TR55 Tc Worksheet Hydraflow Hydrographs Extension for Autodesk®Civil 3D®by Autodesk, Inc.v2023 Hyd. No. 1 Pre Development Description A B C Totals Sheet Flow Manning's n-value = 0.400 0.011 0.011 Flow length (ft) = 100.0 0.0 0.0 Two-year 24-hr precip. (in) = 3.56 0.00 0.00 Land slope (%) = 10.50 0.00 0.00 Travel Time (min) = 10.49 + 0.00 + 0.00 = 10.49 Shallow Concentrated Flow Flow length (ft) = 646.00 0.00 0.00 Watercourse slope (%) = 2.30 0.00 0.00 Surface description = Unpaved Paved Paved Average velocity (ft/s) =2.45 0.00 0.00 Travel Time (min) = 4.40 + 0.00 + 0.00 = 4.40 Channel Flow X sectional flow area (sqft) = 9.60 0.00 0.00 Wetted perimeter(ft) = 11.00 0.00 0.00 Channel slope (%) = 1.10 0.00 0.00 Manning's n-value = 0.023 0.015 0.015 Velocity (ft/s) =6.20 0.00 0.00 Flow length (ft) ({0})391.0 0.0 0.0 Travel Time (min) = 1.05 + 0.00 + 0.00 = 1.05 Total Travel Time, Tc 15.94 min Hydrograph Report Hydraflow Hydrographs Extension for Autodesk®Civil 3D®by Autodesk, Inc.v2023 Wednesday,04/24/2024 Hyd. No. 2 Post Development Hydrograph type = SCS Runoff Peak discharge = 49.63 cfs Storm frequency = 1 yrs Time to peak = 716 min Time interval = 2 min Hyd. volume = 100,596 cuft Drainage area = 18.250 ac Curve number = 86 Basin Slope = 0.0 % Hydraulic length = 0 ft Tc method = User Time of conc. (Tc) = 5.00 min Total precip. = 2.95 in Distribution = Type II Storm duration = 24 hrs Shape factor = 484 Post Development Q (cfs) Hyd. No. 2 -- 1 Year Q (cfs) 50.00 50.00 40.00 40.00 30.00 30.00 20.00 20.00 10.00 10.00 \.... 0.00 — ' 0.00 0 120 240 360 480 600 720 840 960 1080 1200 1320 1440 Hyd No. 2 Time (min) Hydrograph Report Hydraflow Hydrographs Extension for Autodesk®Civil 3D®by Autodesk, Inc.v2023 Wednesday,04/24/2024 Hyd. No. 3 Wet Pond Hydrograph type = Reservoir Peak discharge = 2.579 cfs Storm frequency = 1 yrs Time to peak = 780 min Time interval = 2 min Hyd. volume = 97,599 cuft Inflow hyd. No. = 2 - Post Development Max. Elevation = 510.08 ft Reservoir name = Wet Pond Max. Storage = 57,448 cuft Storage Indication method used. Wet Pond Q (cfs) Hyd. No. 3 -- 1 Year Q (cfs) 50.00 50.00 40.00 40.00 30.00 30.00 20.00 20.00 i 10.00 10.00 0.00 0.00 0 600 1200 1800 2400 3000 3600 4200 4800 5400 6000 Time (min) Hyd No. 3 Hyd No. 2 111111111 Total storage used = 57,448 cuft Hydrograph Summary Report Hydraflow Hydrographs Extension for Autodesk®Civil 3D®by Autodesk, Inc.v2023 Hyd. Hydrograph Peak Time Time to Hyd. Inflow Maximum Total Hydrograph No. type flow interval Peak volume hyd(s) elevation strge used Description (origin) (cfs) (min) (min) (cuft) (ft) (cuft) 1 SCS Runoff 21.27 2 724 63,951 Pre Development 2 SCS Runoff 65.42 2 716 133,625 Post Development 3 Reservoir 5.986 2 746 130,576 2 510.49 70,955 Wet Pond Pre vs Post Hydrographs.gpw Return Period: 2 Year Wednesday, 04/24/2024 Hydrograph Report Hydraflow Hydrographs Extension for Autodesk®Civil 3D®by Autodesk, Inc.v2023 Wednesday,04/24/2024 Hyd. No. 1 Pre Development Hydrograph type = SCS Runoff Peak discharge = 21.27 cfs Storm frequency = 2 yrs Time to peak = 724 min Time interval = 2 min Hyd. volume = 63,951 cuft Drainage area = 18.250 ac Curve number = 69 Basin Slope = 0.0 % Hydraulic length = 0 ft Tc method = TR55 Time of conc. (Tc) = 15.94 min Total precip. = 3.56 in Distribution = Type II Storm duration = 24 hrs Shape factor = 484 Pre Development Q (cfs) Hyd. No. 1 -- 2 Year Q (cfs) 24.00 24.00 20.00 20.00 16.00 16.00 12.00 12.00 8.00 8.00 4.00 4.00 0.00 0.00 0 120 240 360 480 600 720 840 960 1080 1200 1320 1440 1560 Hyd No. 1 Time (min) Hydrograph Report Hydraflow Hydrographs Extension for Autodesk®Civil 3D®by Autodesk, Inc.v2023 Wednesday,04/24/2024 Hyd. No. 2 Post Development Hydrograph type = SCS Runoff Peak discharge = 65.42 cfs Storm frequency = 2 yrs Time to peak = 716 min Time interval = 2 min Hyd. volume = 133,625 cuft Drainage area = 18.250 ac Curve number = 86 Basin Slope = 0.0 % Hydraulic length = 0 ft Tc method = User Time of conc. (Tc) = 5.00 min Total precip. = 3.56 in Distribution = Type II Storm duration = 24 hrs Shape factor = 484 Post Development Q (cfs) Hyd. No. 2 -- 2 Year Q (cfs) 70.00 70.00 60.00 60.00 50.00 50.00 0 40.00 40.00 30.00 30.00 20.00 20.00 10.00 10.00 \44"4"...------ 0.00 — 0.00 0 120 240 360 480 600 720 840 960 1080 1200 1320 Hyd No. 2 Time (min) Hydrograph Report Hydraflow Hydrographs Extension for Autodesk®Civil 3D®by Autodesk, Inc.v2023 Wednesday,04/24/2024 Hyd. No. 3 Wet Pond Hydrograph type = Reservoir Peak discharge = 5.986 cfs Storm frequency = 2 yrs Time to peak = 746 min Time interval = 2 min Hyd. volume = 130,576 cuft Inflow hyd. No. = 2 - Post Development Max. Elevation = 510.49 ft Reservoir name = Wet Pond Max. Storage = 70,955 cuft Storage Indication method used. Wet Pond Q (cfs) Hyd. No. 3 -- 2 Year Q (cfs) 70.00 70.00 60.00 60.00 50.00 50.00 40.00 40.00 30.00 30.00 20.00 20.00 10.00 10.00 0.00 — 0.00 0 480 960 1440 1920 2400 2880 3360 3840 4320 4800 5280 Time (min) Hyd No. 3 Hyd No. 2 111111111 Total storage used = 70,955 cuft Hydrograph Summary Report Hydraflow Hydrographs Extension for Autodesk®Civil 3D®by Autodesk, Inc.v2023 Hyd. Hydrograph Peak Time Time to Hyd. Inflow Maximum Total Hydrograph No. type flow interval Peak volume hyd(s) elevation strge used Description (origin) (cfs) (min) (min) (cuft) (ft) (cuft) 1 SCS Runoff 47.70 2 722 135,896 Pre Development 2 SCS Runoff 108.55 2 716 226,943 Post Development 3 Reservoir 45.99 2 722 223,804 2 511.53 106,858 I Wet Pond Pre vs Post Hydrographs.gpw Return Period: 10 Year Wednesday, 04/24/2024 Hydrograph Report Hydraflow Hydrographs Extension for Autodesk®Civil 3D®by Autodesk, Inc.v2023 Wednesday,04/24/2024 Hyd. No. 1 Pre Development Hydrograph type = SCS Runoff Peak discharge = 47.70 cfs Storm frequency = 10 yrs Time to peak = 722 min Time interval = 2 min Hyd. volume = 135,896 cuft Drainage area = 18.250 ac Curve number = 69 Basin Slope = 0.0 % Hydraulic length = 0 ft Tc method = TR55 Time of conc. (Tc) = 15.94 min Total precip. = 5.20 in Distribution = Type II Storm duration = 24 hrs Shape factor = 484 Pre Development Q (cfs) Hyd. No. 1 -- 10 Year Q (cfs) 50.00 50.00 40.00 40.00 30.00 30.00 20.00 • 20.00 10.00 10.00 0.00 0.00 0 120 240 360 480 600 720 840 960 1080 1200 1320 1440 1560 Hyd No. 1 Time (min) Hydrograph Report Hydraflow Hydrographs Extension for Autodesk®Civil 3D®by Autodesk, Inc.v2023 Wednesday,04/24/2024 Hyd. No. 2 Post Development Hydrograph type = SCS Runoff Peak discharge = 108.55 cfs Storm frequency = 10 yrs Time to peak = 716 min Time interval = 2 min Hyd. volume = 226,943 cuft Drainage area = 18.250 ac Curve number = 86 Basin Slope = 0.0 % Hydraulic length = 0 ft Tc method = User Time of conc. (Tc) = 5.00 min Total precip. = 5.20 in Distribution = Type II Storm duration = 24 hrs Shape factor = 484 Post Development Q (cfs) Hyd. No. 2 -- 10 Year Q (cfs) 120.00 120.00 100.00 100.00 80.00 80.00 60.00 60.00 40.00 40.00 20.00 20.00 0.00 0.00 0 120 240 360 480 600 720 840 960 1080 1200 1320 Hyd No. 2 Time (min) Hydrograph Report Hydraflow Hydrographs Extension for Autodesk®Civil 3D®by Autodesk, Inc.v2023 Wednesday,04/24/2024 Hyd. No. 3 Wet Pond Hydrograph type = Reservoir Peak discharge = 45.99 cfs Storm frequency = 10 yrs Time to peak = 722 min Time interval = 2 min Hyd. volume = 223,804 cuft Inflow hyd. No. = 2 - Post Development Max. Elevation = 511.53 ft Reservoir name = Wet Pond Max. Storage = 106,858 cuft Storage Indication method used. Wet Pond Q (cfs) Hyd. No. 3 -- 10 Year Q (cfs) 120.00 120.00 100.00 100.00 80.00 80.00 60.00 60.00 40.00 40.00 20.00 20.00 0.00 - 0.00 0 120 240 360 480 600 720 840 960 1080 1200 1320 1440 1560 Time (min) Hyd No. 3 Hyd No. 2 111111111 Total storage used = 106,858 cuft Hydrograph Summary Report Hydraflow Hydrographs Extension for Autodesk®Civil 3D®by Autodesk, Inc.v2023 Hyd. Hydrograph Peak Time Time to Hyd. Inflow Maximum Total Hydrograph No. type flow interval Peak volume hyd(s) elevation strge used Description (origin) (cfs) (min) (min) (cuft) (ft) (cuft) 1 SCS Runoff 66.18 2 722 186,371 Pre Development 2 SCS Runoff 135.41 2 716 286,861 Post Development 3 Reservoir 85.42 2 720 283,683 2 511.91 120,424 I Wet Pond Pre vs Post Hydrographs.gpw Return Period: 25 Year Wednesday, 04/24/2024 Hydrograph Report Hydraflow Hydrographs Extension for Autodesk®Civil 3D®by Autodesk, Inc.v2023 Wednesday,04/24/2024 Hyd. No. 1 Pre Development Hydrograph type = SCS Runoff Peak discharge = 66.18 cfs Storm frequency = 25 yrs Time to peak = 722 min Time interval = 2 min Hyd. volume = 186,371 cuft Drainage area = 18.250 ac Curve number = 69 Basin Slope = 0.0 % Hydraulic length = 0 ft Tc method = TR55 Time of conc. (Tc) = 15.94 min Total precip. = 6.22 in Distribution = Type II Storm duration = 24 hrs Shape factor = 484 Pre Development Q (cfs) Hyd. No. 1 -- 25 Year Q (cfs) 70.00 70.00 60.00 60.00 50.00 ---- 50.00 40.00 40.00 30.00 30.00 20.00 ---- II 20.00 10.00 ---- I' 10.00 0.00 0.00 0 120 240 360 480 600 720 840 960 1080 1200 1320 1440 1560 Hyd No. 1 Time (min) Hydrograph Report Hydraflow Hydrographs Extension for Autodesk®Civil 3D®by Autodesk, Inc.v2023 Wednesday,04/24/2024 Hyd. No. 2 Post Development Hydrograph type = SCS Runoff Peak discharge = 135.41 cfs Storm frequency = 25 yrs Time to peak = 716 min Time interval = 2 min Hyd. volume = 286,861 cuft Drainage area = 18.250 ac Curve number = 86 Basin Slope = 0.0 % Hydraulic length = 0 ft Tc method = User Time of conc. (Tc) = 5.00 min Total precip. = 6.22 in Distribution = Type II Storm duration = 24 hrs Shape factor = 484 Post Development Q (cfs) Hyd. No. 2 -- 25 Year Q (cfs) 140.00 I 140.00 120.00 120.00 100.00 100.00 80.00 I 80.00 60.00 60.00 I 40.00 40.00 20.00 20.00 0.00 - 0.00 0 120 240 360 480 600 720 840 960 1080 1200 Hyd No. 2 Time (min) Hydrograph Report Hydraflow Hydrographs Extension for Autodesk®Civil 3D®by Autodesk, Inc.v2023 Wednesday,04/24/2024 Hyd. No. 3 Wet Pond Hydrograph type = Reservoir Peak discharge = 85.42 cfs Storm frequency = 25 yrs Time to peak = 720 min Time interval = 2 min Hyd. volume = 283,683 cuft Inflow hyd. No. = 2 - Post Development Max. Elevation = 511.91 ft Reservoir name = Wet Pond Max. Storage = 120,424 cuft Storage Indication method used. Wet Pond Q (cfs) Hyd. No. 3 -- 25 Year Q (cfs) 140.00 140.00 120.00 120.00 100.00 100.00 80.00 80.00 60.00 60.00 40.00 40.00 20.00 20.00 0.00 - 11------ 0.00 0 120 240 360 480 600 720 840 960 1080 1200 1320 1440 1560 Time (min) Hyd No. 3 Hyd No. 2 111111111 Total storage used = 120,424 cuft Hydrograph Summary Report Hydraflow Hydrographs Extension for Autodesk®Civil 3D®by Autodesk, Inc.v2023 Hyd. Hydrograph Peak Time Time to Hyd. Inflow Maximum Total Hydrograph No. type flow interval Peak volume hyd(s) elevation strge used Description (origin) (cfs) (min) (min) (cuft) (ft) (cuft) 1 SCS Runoff 81.65 2 722 229,092 Pre Development 2 SCS Runoff 156.93 2 716 335,638 Post Development 3 Reservoir 116.98 2 720 332,436 2 512.14 129,145 Wet Pond Pre vs Post Hydrographs.gpw Return Period: 50 Year Wednesday, 04/24/2024 Hydrograph Report Hydraflow Hydrographs Extension for Autodesk®Civil 3D®by Autodesk, Inc.v2023 Wednesday,04/24/2024 Hyd. No. 1 Pre Development Hydrograph type = SCS Runoff Peak discharge = 81.65 cfs Storm frequency = 50 yrs Time to peak = 722 min Time interval = 2 min Hyd. volume = 229,092 cuft Drainage area = 18.250 ac Curve number = 69 Basin Slope = 0.0 % Hydraulic length = 0 ft Tc method = TR55 Time of conc. (Tc) = 15.94 min Total precip. = 7.04 in Distribution = Type II Storm duration = 24 hrs Shape factor = 484 Pre Development Q (cfs) Hyd. No. 1 -- 50 Year Q (cfs) 90.00 90.00 80.00 80.00 70.00 70.00 60.00 60.00 50.00 � 50.00 40.00 40.00 30.00 30.00 20.00 20.00 10.00 10.00 0.00 — 0.00 0 120 240 360 480 600 720 840 960 1080 1200 1320 1440 1560 Hyd No. 1 Time (min) Hydrograph Report Hydraflow Hydrographs Extension for Autodesk®Civil 3D®by Autodesk, Inc.v2023 Wednesday,04/24/2024 Hyd. No. 2 Post Development Hydrograph type = SCS Runoff Peak discharge = 156.93 cfs Storm frequency = 50 yrs Time to peak = 716 min Time interval = 2 min Hyd. volume = 335,638 cuft Drainage area = 18.250 ac Curve number = 86 Basin Slope = 0.0 % Hydraulic length = 0 ft Tc method = User Time of conc. (Tc) = 5.00 min Total precip. = 7.04 in Distribution = Type II Storm duration = 24 hrs Shape factor = 484 Post Development Q (cfs) Hyd. No. 2 -- 50 Year Q (cfs) 160.00 I 160.00 140.00 140.00 120.00 E 120.00 I 100.00 100.00 80.00 80.00 60.00 60.00 40.00 40.00 20.00 20.00 0.00 -. ' 0.00 0 120 240 360 480 600 720 840 960 1080 1200 Hyd No. 2 Time (min) Hydrograph Report Hydraflow Hydrographs Extension for Autodesk®Civil 3D®by Autodesk, Inc.v2023 Wednesday,04/24/2024 Hyd. No. 3 Wet Pond Hydrograph type = Reservoir Peak discharge = 116.98 cfs Storm frequency = 50 yrs Time to peak = 720 min Time interval = 2 min Hyd. volume = 332,436 cuft Inflow hyd. No. = 2 - Post Development Max. Elevation = 512.14 ft Reservoir name = Wet Pond Max. Storage = 129,145 cuft Storage Indication method used. Wet Pond Q (cfs) Hyd. No. 3 -- 50 Year Q (cfs) 160.00 I — 160.00 140.00 140.00 120.00 120.00 100.00 100.00 80.00 80.00 60.00 60.00 40.00 40.00 20.00 20.00 0.00 - 0.00 0 120 240 360 480 600 720 840 960 1080 1200 1320 1440 1560 Time (min) Hyd No. 3 Hyd No. 2 111111111 Total storage used = 129,145 cuft Hydrograph Summary Report Hydraflow Hydrographs Extension for Autodesk®Civil 3D®by Autodesk, Inc.v2023 Hyd. Hydrograph Peak Time Time to Hyd. Inflow Maximum Total Hydrograph No. type flow interval Peak volume hyd(s) elevation strge used Description (origin) (cfs) (min) (min) (cuft) (ft) (cuft) 1 SCS Runoff 98.48 2 722 276,015 Pre Development 2 SCS Runoff 179.67 2 716 387,807 Post Development 3 Reservoir 144.32 2 720 384,585 2 512.31 135,762 Wet Pond Pre vs Post Hydrographs.gpw Return Period: 100 Year Wednesday, 04/24/2024 Hydrograph Report Hydraflow Hydrographs Extension for Autodesk®Civil 3D®by Autodesk, Inc.v2023 Wednesday,04/24/2024 Hyd. No. 1 Pre Development Hydrograph type = SCS Runoff Peak discharge = 98.48 cfs Storm frequency = 100 yrs Time to peak = 722 min Time interval = 2 min Hyd. volume = 276,015 cuft Drainage area = 18.250 ac Curve number = 69 Basin Slope = 0.0 % Hydraulic length = 0 ft Tc method = TR55 Time of conc. (Tc) = 15.94 min Total precip. = 7.91 in Distribution = Type II Storm duration = 24 hrs Shape factor = 484 Pre Development Q (cfs) Hyd. No. 1 -- 100 Year Q (cfs) 100.00 100.00 80.00 80.00 60.00 60.00 40.00 40.00 20.00 20.00 J L 0.00 - 0.00 0 120 240 360 480 600 720 840 960 1080 1200 1320 1440 1560 Hyd No. 1 Time (min) Hydrograph Report Hydraflow Hydrographs Extension for Autodesk®Civil 3D®by Autodesk, Inc.v2023 Wednesday,04/24/2024 Hyd. No. 2 Post Development Hydrograph type = SCS Runoff Peak discharge = 179.67 cfs Storm frequency = 100 yrs Time to peak = 716 min Time interval = 2 min Hyd. volume = 387,807 cuft Drainage area = 18.250 ac Curve number = 86 Basin Slope = 0.0 % Hydraulic length = 0 ft Tc method = User Time of conc. (Tc) = 5.00 min Total precip. = 7.91 in Distribution = Type II Storm duration = 24 hrs Shape factor = 484 Post Development Q (cfs) Hyd. No. 2 -- 100 Year Q (cfs) 180.00 180.00 150.00 150.00 120.00 120.00 90.00 I 90.00 60.00 60.00 30.00 30.00 0.00 -. 0.00 0 120 240 360 480 600 720 840 960 1080 1200 Hyd No. 2 Time (min) Hydrograph Report Hydraflow Hydrographs Extension for Autodesk®Civil 3D®by Autodesk, Inc.v2023 Wednesday,04/24/2024 Hyd. No. 3 Wet Pond Hydrograph type = Reservoir Peak discharge = 144.32 cfs Storm frequency = 100 yrs Time to peak = 720 min Time interval = 2 min Hyd. volume = 384,585 cuft Inflow hyd. No. = 2 - Post Development Max. Elevation = 512.31 ft Reservoir name = Wet Pond Max. Storage = 135,762 cuft Storage Indication method used. Wet Pond Q (cfs) Hyd. No. 3 -- 100 Year Q (cfs) 180.00 180.00 150.00 150.00 120.00 120.00 90.00 90.00 60.00 I 60.00 30.00lk — 30.00 I 1 0.00 J 0.00 0 120 240 360 480 600 720 840 960 1080 1200 1320 1440 1560 Time (min) Hyd No. 3 Hyd No. 2 111111111 Total storage used = 135,762 cuft Hydraflow Rainfall Report Hydraflow Hydrographs Extension for Autodesk®Civil 3D®by Autodesk, Inc.v2023 Wednesday,04/24/2024 Return Intensity-Duration-Frequency Equation Coefficients(FHA) Period (Yrs) B D E (N/A) 1 0.0000 0.0000 0.0000 2 69.8703 13.1000 0.8658 3 0.0000 0.0000 0.0000 5 79.2597 14.6000 0.8369 10 88.2351 15.5000 0.8279 25 102.6072 16.5000 0.8217 50 114.8193 17.2000 0.8199 100 127.1596 17.8000 0.8186 File name:Waxhaw.IDF Intensity= B/(Tc+ D)^E Return Intensity Values(in/hr) Period (Yrs) 5 min 10 15 20 25 30 35 40 45 50 55 60 1 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 2 5.69 4.61 3.89 3.38 2.99 2.69 2.44 2.24 2.07 1.93 1.81 1.70 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 6.57 5.43 4.65 4.08 3.65 3.30 3.02 2.79 2.59 2.42 2.27 2.15 10 7.24 6.04 5.21 4.59 4.12 3.74 3.43 3.17 2.95 2.77 2.60 2.46 25 8.25 6.95 6.03 5.34 4.80 4.38 4.02 3.73 3.48 3.26 3.07 2.91 50 9.04 7.65 6.66 5.92 5.34 4.87 4.49 4.16 3.88 3.65 3.44 3.25 100 9.83 8.36 7.30 6.50 5.87 5.36 4.94 4.59 4.29 4.03 3.80 3.60 Tc=time in minutes.Values may exceed 60. Precip.file name:W:\2022\C220082-Widewaters-Prescot Village\Calculations\Waxhaw.pcp Rainfall Precipitation Table (in) Storm Distribution 1-yr 2-yr 3-yr 5-yr 10-yr 25-yr 50-yr 100-yr SCS 24-hour 2.95 3.56 0.00 4.47 5.20 6.22 7.04 7.91 SCS 6-Hr 1.00 2.54 0.00 3.17 3.67 4.35 4.90 5.46 Huff-1st 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 1.00 2.54 1.03 0.00 3.67 4.35 4.90 5.46 American Engineering Associates-Southeast, PA. 8008 Corporate Center Drive,Suite 110 A AME.RICAN Charlotte,NC 28226 OFFICE:704.375.2438 Engineering www.American-EA.com The Shops at Prescot Village—Waxhaw, NC 28173 Stormwater Pollution Prevention Plan Appendix A-12 Sediment Basin Calculations SEDIMENT BASIN (per NCDENR EROSION AND SEDIMENT CONTROL MANUAL SECTION 6.61) Project Information Project Name: The Shops at Prescot Village Project#: Designed by: BHE Date: 10/30/2023 Revised by: BHE Date: 4/22/2024 Revised by: Date: Basin# 1 Phase 1 Basin Type= Sediment (Per NCDNER EC Manual Ch.6,Sec.6.61) Drainage Area(ac)= 12.37 Disturbed Area(ac)= 11.67 Runoff Coefficient(c)= 0.50 (Smooth bare packed soil) Rainfall Intensity"i"(in/hr)= 7.61 (5 min time of concentration-10 Year Storm) Flow(Q10)(cfs)= 47.1 (Q=c*i"drainage area) Required surface area(sf)= 20,475 (435 sf per cfs of Q10 peak inflow) Required Storage(cf)= 22,266 (1800 cf per acre of disturbed area) Schematic Storage Dimensions:(may not be actual size or rectangular shape) Basin Side Slopes(x: 1 )= 3.0 Storage Depth"Z"(ft)= 6.00 Bottom Dimension= 230.0 ft x 50.0 ft Top Dimension(sediment storage elevation)= 266.0 ft x 86.0 ft Top of Dam Dimension= 290.0 ft x 110.0 ft Storage Provided(cf)= 103,128.0 Surace Area Provided(sf)= 22,876.0 Designed Storage Dimensions: Elev(ft) Area(SF) Volume(CF) _ 516 _ 12,458 _ 0 _ 517 14,224 13,341 _ 518 16,046 28,476 _ 519 17,924 45,461 _ 520 19,859 64,353 _ 521 21,851 85,208 _ 522 23,899 108,083 _ 523 26,003 133,034 _ 524 28,165 160,118 _ 525 30,382 189,391 526 32,657 220,911 Designed Storage Elevation(ft)= 521.00 Designed Surface Area(sf)= 21,851 O.K.>Minimum Minimum Surface Area Designed Storage Volume(cf)= 85,208 O.K.>Minimum Required Storage Bottom Elevation(ft)= 516.0 Top of Dam Elevation(ft)= 526.0 Sizing of Skimmer Orifice Diameter: Table 6.64a, EC Manual Ch.6,Sec.6.64 Skimmer Head on Size Skimmer (Inches) (Feet) Skimmer Size(in)= 3 1.5 0.125 Head on Skimmer(ft)= 0.25 2 0.167 Dewatered Volume(cf)= 22,266 2.5 0.208 Dewatering Time(days)= 3.1 3 0.25 Calculated Orifice Size(in)= 2.49 4 0.333 Actual Orifice Size(in)= 2.50 5 0.333 6 0.417 8 0.5 'Basin#1 -Phase 1 (Cont.) Sizing of Riser Overflow: Qriser(cfs)= 47.1 (Q10) Riser Diameter(in)= Spillway Length(ft)= 20.0 5'x 5'precast structure Spillway Crest Elevation(ft)= 521.0 Design High Water Depth Over Spillway(in)= 10 (Cw=3.0) Velocity Over Spillway(fps)= 2.8 Top of Berm Elevation(ft)= 526.0 Freeboard(ft)= 4.1 Filter Width(ft)= n/a (8 ft minimum) Top of Berm Elevation(ft)= 526.0 (Top of Basin Elevation) Sizing of Antiflotation Block: Inside Length(ft)= 5 Inside width(ft)= 5 Wall Thickness(in)= 6 Top of Structure= 521.0 Bottom of Structure= 515.3 Bottom Slab Lip(in)= 12 Bottom Slab Thickness(in)= 12 Volume of Structure(cf)= 63 Weight of Structure(Ib)= 9,438 Volume of Water Displaced(cf)= 205.9 Weight of Water Displaced(Ib)= 12,849 Bottom Slab Size: Bottom Slab Lip(in)= 12 Thickness(in)= 12.00 Weight of Anchor(Ib)= 7,350 Factor of Safety= 1.3 Check Culvert Capacity: Invert Elevation Down(ft): 514.71 Invert Elevation Up(ft): 515.28 Pipe Length(ft): 96.00 Slope(ft/ft): 0.0059 Pipe Diameter(in): 36 Mannings: 0.013 Q10(cfs): 47.1 See attached Culvert Analysis Velocity Q10(fps): 7.2 O.K.Velocity<10 fps Culvert Report Hydraflow Express Extension for Autodesk®Civil 3D®by Autodesk, Inc. Thursday,Oct 5 2023 SB1 PH1 Culvert Invert Elev Dn (ft) = 504.88 Calculations Pipe Length (ft) = 300.00 Qmin (cfs) = 48.70 Slope (%) = 1.04 Qmax (cfs) = 48.70 Invert Elev Up (ft) = 508.00 Tailwater Elev (ft) = (dc+D)/2 Rise (in) = 42.0 Shape = Circular Highlighted Span (in) = 42.0 Qtotal (cfs) = 48.70 No. Barrels = 2 Qpipe (cfs) = 48.70 n-Value = 0.013 Qovertop (cfs) = 0.00 Culvert Type = Circular Concrete Veloc Dn (ft/s) = 3.30 Culvert Entrance = Square edge w/headwall (C) Veloc Up (ft/s) = 6.10 Coeff. K,M,c,Y,k = 0.0098, 2, 0.0398, 0.67, 0.5 HGL Dn (ft) = 507.39 HGL Up (ft) = 509.52 Embankment Hw Elev (ft) = 510.14 Top Elevation (ft) = 522.00 Hw/D (ft) = 0.61 Top Width (ft) = 10.00 Flow Regime = Inlet Control Crest Width (ft) = 0.00 Elev (ft) Profile Hw Depth (ft) 525.00 17.00 522.00 14.00 519.00 11.00 516.00 8.00 Embankment 513.00 5.00 510.00 = Hw 2.00 o 507.00 19( L -1.00 504.00 -4.00 501.00 -7.00 0.0 50.0 100.0 150.0 200.0 250.0 300.0 350.0 400.0 450.0 500.0 Reach (ft) SEDIMENT BASIN (per NCDENR EROSION AND SEDIMENT CONTROL MANUAL SECTION 6.61) Project Information Project Name: The Shops at Prescot Village Project#: Designed by: BHE Date: 10/30/2023 Revised by: BHE Date: 4/3/2024 Revised by: Date: Basin# 2 Phase 2 Basin Type= Sediment (Per NCDNER EC Manual Ch. 6, Sec. 6.61) Drainage Area(ac)= 18.25 Disturbed Area(ac)= 15.01 Runoff Coefficient(c)= 0.50 (Smooth bare packed soil) Rainfall Intensity"i"(in/hr)= 7.61 (5 min time of concentration-10 Year Storm) Flow(Q10)(cfs)= 69.4 (Q=c*i*drainage area) Required surface area(sf)= 30,207 (435 sf per cfs of Q10 peak inflow) Required Storage(cf)= 32,850 (1800 cf per acre of disturbed area) Schematic Storage Dimensions: (may not be actual size or rectangular shape) Basin Side Slopes(x: 1 )= 3.0 Storage Depth"Z"(ft)= 5.00 Bottom Dimension = 480.0 ft x 40.0 ft Top Dimension(sediment storage elevation)= 510.0 ft x 70.0 ft Top of Dam Dimension = 510.0 ft x 70.0 ft Storage Provided (cf)= 137,250.0 Surace Area Provided (sf)= 35,700.0 Designed Storage Dimensions: Elev(ft) Area(SF) Volume(CF) 506 15,792 0 507 17,978 16,885 508 22,300 37,024 509 27,628 61,988 510 31,327 91,466 511 34,763 124,511 512 37,251 160,518 513 39,613 198,950 Designed Storage Elevation (ft)= 511.00 Designed Surface Area(sf)= 34,763 O.K.>Minimum Minimum Surface Area Designed Storage Volume(cf)= 124,511 O.K.>Minimum Required Storage Bottom Elevation (ft)= 508.0 Top of Dam Elevation(ft)= 513.0 Emergency Spillway Elevation(ft)= 512.0 Sizing of Skimmer Orifice Diameter: Table 6.64a, EC Manual Ch.6, Sec. 6.64 Skimmer Head on Size Skimmer (Inches) (Feet) Skimmer Size(in)= 4 1.5 0.125 Head on Skimmer(ft)= 0.333 2 0.167 Dewatered Volume(cf)= 32,850 2.5 0.208 Dewatering Time(days)= 2.75 3 0.25 Calculated Orifice Size(in)= 2.99 4 0.333 Actual Orifice Size(in)= 3.00 5 0.333 6 0.417 8 0.5 !Basin#2-Phase 2(Cont.) Sizing of Riser Overflow: Qriser(cfs)= 69.4 (Q10) Riser Diameter(in)= (Use permanent control structure dimensions) Spillway Length(ft)= 21.3 5'-4"x5'-4"precast control structure Spillway Crest Elevation (ft)= 511.0 (spillway set from permanent pond design) Design High Water Depth Over Spillway(in)= 13 (Cw=3.0) Velocity Over Spillway(fps)= 3.1 Emergency Spillway Elevation(ft)= 512.0 Freeboard (ft)= 1.0 (1 ft minimum to emergency spillway elev) Filter Width (ft)= n/a (8 ft minimum) Top of Berm Elevation (ft)= 513.0 (Top of Basin Elevation) Sizing of Emergency Spillway: Qspillway(cfs)= 69.4 Spillway Length(ft)= 20.0 (20 ft minimum spillway length, Cw=2.6) Spillway Crest Elevation (ft)= 512.0 (1.0 ft min. above sediment storage depth) Design High Water Depth Over Spillway(in)= 13 Velocity Over Spillway(fps)= 3.2 Freeboard (ft)= 1.0 (1 ft minimum) Top of Berm Elevation (ft)= 513.0 (Top of Basin Elevation) Sizing of Antiflotation Block: Inside Length (ft)= 5.3 Inside width (ft)= 5.3 Wall Thickness(in)= 6 Top of Structure= 511.0 Bottom of Structure= 501.0 Bottom Slab Lip(in)= 12 Bottom Slab Thickness(in)= 12 Volume of Structure(cf)= 116 Weight of Structure(Ib)= 17,400 Volume of Water Displaced (cf)= 396.9 Weight of Water Displaced(Ib)= 24,767 Bottom Slab Size: Bottom Slab Lip(in)= 15 Thickness(in)= 15.00 Weight of Anchor(Ib)= 11,408 Factor of Safety= 1.2 Check Culvert Capacity: Invert Elevation Down(ft): 503.00 Invert Elevation Up(ft): 503.37 Pipe Length(ft): 74.00 Slope(ft/ft): 0.0050 Pipe Diameter(in): 48 Mannings: 0.013 Q10(cfs): 69.4 See attached Culvert Analysis Velocity Q10(fps): 6.3 O.K.Velocity<10 fps Culvert Report Hydraflow Express Extension for Autodesk®Civil 3D®by Autodesk, Inc. Thursday,Oct 5 2023 SB1 PH2 Culvert Invert Elev Dn (ft) = 503.00 Calculations Pipe Length (ft) = 74.00 Qmin (cfs) = 69.40 Slope (%) = 0.50 Qmax (cfs) = 69.40 Invert Elev Up (ft) = 503.37 Tailwater Elev (ft) = (dc+D)/2 Rise (in) = 48.0 Shape = Circular Highlighted Span (in) = 48.0 Qtotal (cfs) = 69.40 No. Barrels = 1 Qpipe (cfs) = 69.40 n-Value = 0.013 Qovertop (cfs) = 0.00 Culvert Type = Circular Concrete Veloc Dn (ft/s) = 6.33 Culvert Entrance = Square edge w/headwall (C) Veloc Up (ft/s) = 8.34 Coeff. K,M,c,Y,k = 0.0098, 2, 0.0398, 0.67, 0.5 HGL Dn (ft) = 506.26 HGL Up (ft) = 505.89 Embankment Hw Elev (ft) = 507.26 Top Elevation (ft) = 513.00 Hw/D (ft) = 0.97 Top Width (ft) = 10.00 Flow Regime = Inlet Control Crest Width (ft) = 0.00 Elev (ft) Profile Hw Depth (ft) 515.00 11.63 513.00 9.63 511.00 7.63 Embankment 509.00 5.63 507.00 Hw 3.63 505.00 74.00 Lf of 48(in)(a�. 0.50 % 1.63 503.00 -0.37 501.00 -2.37 0.0 5.0 10.0 15.0 20.0 25.0 30.0 35.0 40.0 45.0 50.0 55.0 60.0 65.0 70.0 75.0 80.0 85.0 90.0 95.0 Reach (ft) American Engineering Associates-Southeast, PA. 8008 Corporate Center Drive,Suite 110 A AMERICAN Charlotte,NC 28226 OFFICE:704.375.2438 Engineering www.American-EA.com The Shops at Prescot Village—Waxhaw, NC 28173 Stormwater Pollution Prevention Plan Appendix A-13 Diversion Ditch & Slope Drain Calculations Channel Report Hydraflow Express Extension for Autodesk®Civil 3D®by Autodesk, Inc. Monday,Nov 27 2023 Temporary Diversion Ditch 1 Trapezoidal Highlighted Bottom Width (ft) = 1.00 Depth (ft) = 1.13 Side Slopes (z:1) = 3.00, 3.00 Q (cfs) = 17.50 Total Depth (ft) = 2.00 Area (sqft) = 4.96 Invert Elev (ft) = 522.26 Velocity (ft/s) = 3.53 Slope (%) = 1.00 Wetted Perim (ft) = 8.15 N-Value = 0.030 Crit Depth, Yc (ft) = 1.01 Top Width (ft) = 7.78 Calculations EGL (ft) = 1.32 Compute by: Known Q Known Q (cfs) = 17.50 Elev (ft) Section Depth (ft) 525.00 2.74 524.50 2.24 524.00 1.74 523.50 1.24 523.00 0.74 ir 522.50 0.24 522.00 -0.26 521.50 -0.76 0 2 4 6 8 10 12 14 16 18 Reach (ft) Hydrology Report Hydraflow Express Extension for Autodesk®Civil 3D®by Autodesk, Inc. Monday,Nov 27 2023 Temporary Diversion Ditch 1 Hydrograph type = Rational Peak discharge (cfs) = 17.50 Storm frequency (yrs) = 10 Time interval (min) = 1 Drainage area (ac) = 4.600 Runoff coeff. (C) = 0.5 Rainfall Inten (in/hr) = 7.610 Tc by User (min) = 5 IDF Curve = Waxhaw.IDF Rec limb factor = 1.00 Hydrograph Volume=5,251 (cuft);0.121 (acft) Runoff Hydrograph Q (cfs) 10-yr frequency Q (cfs) 18.00 18.00 15.00 15.00 12.00 12.00 9.00 9.00 6.00 6.00 3.00 3.00 0.00 0.00 0 5 10 Time (min) Runoff Hyd - Qp = 17.50 (cfs) Channel Report Hydraflow Express Extension for Autodesk®Civil 3D®by Autodesk, Inc. Monday,Nov 27 2023 Temporary Diversion Ditch 2 Trapezoidal Highlighted Bottom Width (ft) = 1.00 Depth (ft) = 1.04 Side Slopes (z:1) = 3.00, 3.00 Q (cfs) = 14.27 Total Depth (ft) = 2.00 Area (sqft) = 4.28 Invert Elev (ft) = 524.18 Velocity (ft/s) = 3.33 Slope (%) = 1.00 Wetted Perim (ft) = 7.58 N-Value = 0.030 Crit Depth, Yc (ft) = 0.92 Top Width (ft) = 7.24 Calculations EGL (ft) = 1.21 Compute by: Known Q Known Q (cfs) = 14.27 Elev (ft) Section Depth (ft) 527.00 2.82 526.50 2.32 526.00 1.82 525.50 1.32 525.00 0.82 524.50 0.32 524.00 -0.18 523.50 -0.68 0 2 4 6 8 10 12 14 16 18 Reach (ft) Hydrology Report Hydraflow Express Extension for Autodesk®Civil 3D®by Autodesk, Inc. Monday,Nov 27 2023 Temporary Diversion Ditch 2 Hydrograph type = Rational Peak discharge (cfs) = 14.27 Storm frequency (yrs) = 10 Time interval (min) = 1 Drainage area (ac) = 3.750 Runoff coeff. (C) = 0.5 Rainfall Inten (in/hr) = 7.610 Tc by User (min) = 5 IDF Curve = Waxhaw.IDF Rec limb factor = 1.00 Hydrograph Volume=4,281 (cuft);0.098(acft) Runoff Hydrograph Q (cfs) 10-yr frequency Q (cfs) 15.00 15.00 12.00 12.00 9.00 9.00 6.00 6.00 3.00 3.00 0.00 0.00 0 5 10 Time (min) Runoff Hyd - Qp = 14.27 (cfs) Channel Report Hydraflow Express Extension for Autodesk®Civil 3D®by Autodesk, Inc. Monday,Nov 27 2023 Temporary Diversion Ditch 3 Trapezoidal Highlighted Bottom Width (ft) = 1.00 Depth (ft) = 0.96 Side Slopes (z:1) = 3.00, 3.00 Q (cfs) = 11.91 Total Depth (ft) = 2.00 Area (sqft) = 3.72 Invert Elev (ft) = 524.18 Velocity (ft/s) = 3.20 Slope (%) = 1.00 Wetted Perim (ft) = 7.07 N-Value = 0.030 Crit Depth, Yc (ft) = 0.85 Top Width (ft) = 6.76 Calculations EGL (ft) = 1.12 Compute by: Known Q Known Q (cfs) = 11.91 Elev (ft) Section Depth (ft) 527.00 2.82 526.50 2.32 526.00 1.82 525.50 1.32 525.00 0.82 524.50 0.32 524.00 -0.18 523.50 -0.68 0 2 4 6 8 10 12 14 16 18 Reach (ft) Hydrology Report Hydraflow Express Extension for Autodesk®Civil 3D®by Autodesk, Inc. Monday,Nov 27 2023 Temporary Diversion Ditch 3 Hydrograph type = Rational Peak discharge (cfs) = 11.91 Storm frequency (yrs) = 10 Time interval (min) = 1 Drainage area (ac) = 3.130 Runoff coeff. (C) = 0.5 Rainfall Inten (in/hr) = 7.610 Tc by User (min) = 5 IDF Curve = Waxhaw.IDF Rec limb factor = 1.00 Hydrograph Volume=3,573(cuft);0.082(acft) Runoff Hydrograph Q (cfs) 10-yr frequency Q (cfs) 12.00 12.00 10.00 10.00 8.00 8.00 6.00 6.00 4.00 4.00 2.00 2.00 0.00 0.00 0 5 10 Time (min) Runoff Hyd - Qp = 11.91 (cfs) - 180 - 10,000 - 168 = 8,000 EXAMPLE ( I ) (2) (3) - - - 156 - 6,000 D•42 inches (3.5 feet) - 6. r 6, 5 0.120 de5 - 144 _ ,000 - ` -- 132 - 4,000 Nw - 6. _ - 5. fast - 4. - `- 3,000 (I) 2.5 e.e 4. 5' - - 120 - (2) 2.1 7.4 •- - - - 2,000 (3) 2.2 7.7 ` 4. - 108 _ - 3. - - *0 In feet - - _ 3' - 96 - 1,000 - 3. _ - - 800 __�~_�- Temp Slope - 84 - 600 /fir - 2. - 2-Drain 1 - 500 ,/ - _ Q10 = 17.50 cfs - - 2 r HW/D = 1.25 - 72 - 400 / _ A=4.60 ac w i - - I _ _ 300 1.y�I"' C = 0.50 N-27 _ Il = 7.61 in/hr z N _- 60 - 200 W1-z - W re - Z - ae - a 80 I - a - - , ► v / i - 60 a 1.0 _ 1.0 a2 W o - - 50 HW SCALE NTRANCE �. I.0 - - 40 D TYPE er W 1_ - 36 - 30 ) Square edge with 3 - 9 - 9 - .9 hsadwolt 0_ - a - 33 _ a - = • • (2) Groove and with W - - - 30 headwall I .8 - .8 - (3) Groove end- - .8 - 27 - pro)ecring - - - 10 ` - - .7 - .T 24 _- 8 - .7 - 6 To use scale (2) or (3) project - - - 21 - 5 horizontally to scale (I),than - - 4 use strolght inclined line through 0 and 0 scales, or - .6 L. .6 - 3 illustrated. - .6 - 18 = 2 _ - - - BUREAU OF PUBLIC ROADS JAN. 1963 - 15 - --- .5 -- .5 - 1.0 HEADWATER SCALES 2 93 - •5 REVISED MAY 1964 - 12 Figure 5-1 Headwater Water Depth for Concrete Pipe Culverts with Inlet Control - English Units Source: www.deldot.gov/information/pubs_forms/manuals/road_design/pdf/supp_figures_chap_6.pdf, page 23 Page 112 - 180 10,000 - 168 8,000 EXAMPLE ( I ) (2) (3) - - 156 6,000 D•42 inches (3.5 feet) - 6 r' 6, 5,000� 0.120 cis 5. - 144 - -- 132 4,000 Nw - 6. _ - 5. feet 3,000 (1) 2.5 8.8 - 6' - 4. _ - 4. - 120 - (2) 2.1 7.4 •- - ` 2,000 (3) 2.2 7.7 4. - 108 - 3. - - e0 In fist - - - - 96 1,000 - 3. - _ 800 - - - 84 600 //fir -- _ 2. - 2. - 500 _ - 72 400 - 2 - Temp Slope 2 _ _ 300 ��- - _ _ -- 1.5 _ 1.'5 Q10n 26.18 cfs v N-_ HW/D = 1.10 - - 60 t` 200 / w - A= 6.88 ac z Z /� W I.S - C = 0.50 I = 7.61 in/hr c - 54 a, / 4 _ w cr - 48 - c I00 - - /� ac 80 = a / I 60 a 1.0 - 1.0 a2 w 40 Hp SCALE TYPE W - 1.0 - - rr 1_ - 36 3 (1) Square edge with 3 9 - .9 ~ '9 headwall O - _ a 33 a - 20 (2) Groove end with 30 headwall = - .8 - .8 (3) Groove end - .8 27 pro)ecring - - 10 ` 7 - .7- - 24 8 - .7 6 To use scale (2) or (3) project - - 21 5 horizontally to scale (I),then - 4 use straight inclined lint through 0 and 0 scales, or - .6 _ .6 3 iltustrottd. - .6 - 18 2 - BUREAU OF PUBLIC ROADS JAN. 1963 - 1'S - .5 -- .5 1.0 HEADWATER SCALES 2 a3 - •3 REVISED MAY 1964 - 12 Figure 5-1 Headwater Water Depth for Concrete Pipe Culverts with Inlet Control - English Units Source: www.deldot.gov/information/pubs_forms/manuals/road_design/pdf/supp_figures_chap_6.pdf, page 23 Page 112 American Engineering Associates-Southeast, PA. 8008 Corporate Center Drive,Suite 110 CharlAM E RI CAN FF CE:704.3tte, 7 .2438 A \ OFFICE:704.375.2438 Engineering www.American-EA.com The Shops at Prescot Village—Waxhaw, NC 28173 Stormwater Pollution Prevention Plan Appendix A-14 Riprap Apron Calculations Appendices FES-A35 42" Diameter (2) Q10 = 62.25 cfs La = 22' d50 = 8.4" W = 25.5' 3 3Do =,10.5' I ' In ,-� '{ I Outlet W = Do + La t = 1.6 9D '1 „• : , pipe , ,,, I ;itll III ' I,, .,r,`, diameter (Do) I Ii I;l r 1 80 liilu •.d wir l� La —� I!' l I '1r1[[ IMF lip 1i r�l•d . T.ilwater < 0.5Do l '_I Ll' , i cull;;, ..4o { I, Q �, - of Ii, I hi. 1 ►ar I win! ti r' 6p • iir nui1. 1 nln lr° 1 i }- • ; 11'��IIr'i7 r 1 lu (\ 11 I I i,i. J ,I A�; (+ I/t ill., . IIII 6 I- I 1 i I i 1,,ii 1 1 1 JCS 50 1 l I I Cz}•0 41IIIII! 1/ll/I IIIMI r \(� ,1, : / /rlr 111[llllllllllllnl I \ ; I. . , ,,l , l ,ii 1 II i i i ir .ii�I IIIIIIIIIIIINII III `., ii Hi�I 1 i i i ' I i rl1 l i , '0 •00051PI • Illlllil iiiili IIIII�IIII ii I I ,, { .7i .ip Iuk 1 1IIII 'ii 40 a i un loon 1 r iw u 4 it n 111111111 uuul DA,,,nnrn i ; I i I A. =i �1 limo' v% aim' f 11 11'' ;,;ICI h � � iii worm:m -.Ammo; 0 30 I I I i R'li*��• A. �P li - 1 I I , I II11{ f1i111i1111U:ir; ;�� � . � 1 n unnrnn;nr:; r1 s'%'" r I 1i1HIII1I!1•.1, J1k IIrlll I Illllr"ADIsspI!0� 10 ..i 'i+�r�l��' � ' S� C;lu��,, 33a/;20 15 ia%� I !!.illl �l��inr�1li 1/,111 3 • ' Ell �•'�rl 10 iTiI ' iU1IIIIII1iU ' ?...,,.,ti _ .i WA /Or cMt• N era '�ruinu►aril=.li I 2 I, .I ;I;, :I ,r'! r lr• m� !'611 rr a i;n �� � ' ' ,I: ii :' � �9� I��AILI!IIr9�l(r�` 1llrll lr f! it �I�{ I.ff;I + � r, !��1 it:nrl,.,.ry►�1 a {' ii� i II I_I. ;4 I 121 1Iiiiii/' !i =i (0 '1 _ "'r. .MPdi�1,N�rIIrS�ii�llli III a IlL I I,VI I.CI' '1 ray ,1lrir;����r (1r 1 { CCS l • •.diti �a.111 .1�1Ts1111 min il�1l� ��,11 � �i��{���. r 0 ,,1, ,,. 1} „ I I, „I�o a�i .� I a ,� 1I, - v 0 3 5 10 20 50 100 200 500 1000 Discharge(ft3/sec) 62.25 cfs Curves may not be extrapolated. Figure 8.06a Design of outlet protection protection from a round pipe flowing full,minimum tailwater condition(Tw<0.5 diameter). Rev.12/93 8.06.3 Appendices FES-B2 48" Diameter Q10 = 45.83 cfs La = 26' d50 = 10.8" W = 30' 3 3Do = 12' t I � 1 HI;l 1,,, r, Outlet w = Do + La t = 2' pipe 9r I ii *1' diameter(Do) I I! 1 ;; �i"�� { ,� i�ll� 11111 dr�ili!1 La --•! 80 L , l ii;cp/11:1. T.i lwater 0.500 I 10111111111IIin t.1 • i�i1 i I.ril < t �al���l, 71 1 i '/71r1�1,!r 1 '<P 6o i 1111111 '• •7�,i1 lI I I , i'lli117/,t� r1 l l4 f� -� i �Sil;lillp � !II�I Q � 1!iPHIIR/9 � I 111■ O I •It'1�1111!d11 1 p,1 Igll '�` j �I !I i�grmrl ■ \,ec`g I1 1' I { }; ' I aid ililIII i!li'� II iui J� 5 I If } l I . "I/!!�jl l�l I ii =1� Ilti"II I ro •4 1IAi1 ti- 1/ 11 1 q11 ■ \���` Q • .i, .. li; I ,,)01 I'lIrillIS h l/al1 IIIIIIIIIIIIIIIIII 1: ;, . 1i� 111 nqq I I 11 .l f, , 1 1 I 6 i,i� ,01,,j r' rim i 111 1 I mmilm 0 i-�l>!i �i a ppmu IiiHii 1 {II Ilgn•;!I 4. "liii! `I t_` ddIiAIPAIR4.4' I1111111I1111111 III;Afi1/ • !' t a ■I'Ai � �11 11 1 111 I IIII11 DA ,IIIIPIII 4 �I 11 - - = PI !111111 l41lll'II 31 i I' I 1[ ink � I li 1, f 1 I a_, •e4"'i ap j- i IIII . 4 4,6,,......11l ;•tills,il®iii hill Iiiiiiiimminiii:ii � � IIHHiHIIIIOIiIIIII 20 nllm{i ;�5~ d.•s:ii�3,ilp+liaii�:i M�iiill �ifii��I�I��� i � i�ii • I�il niiill�iml,1•rnglnian m,mli m m m1 111 1 II I I 1 11111111111 I d !'i��!!P'"11�•'�U''I l t 111111M } 1 1 1111! IIi1P�'�I, I 7,,il'io'd 3Ili ii I I I=III 1{lii iII IIIIII11ll,• �,�-00Oji 1=!�/00 IIi I 4illtl�=� ,Aii��:IDS I ��I�Iil�lll��il l ii;�:: :gill{ ;ie�°itl ii ii � �I I I 1 I EM + ill �ii�1 ii I ls� U 10 mnmlinmm�,:i In!•:mllll1 1 nlfiilil 1 n IIH1IIoIurllI!1IL'1HrIII1IIHhIIIIIIIIIIIII 1 �� �� J. .i lliis�llnl111ri �O i=•' Ir � P'I1i1 I I 1111�,1 � �0 aN, /�il li ° 11i�AIf��liillji if 2 N i 11111 ina Ir�Iit• 'N � 11111!1111,11ri1!1 . MIN 111 I III 1 ill p' ►. ' !11 V Illlldl•O►Pi nllll Cn III Ishii I I 1 1 l i + ! - ,, i �0m-!'•'' N Plli!"{I 1!1�r' e 111111 iii=ii II�III1 I{ , I I ! I �I f 11 l l i l i t I . 01 ''Arill1106 4:11 151 1i0n 11 q nun L6 111 11■I II I 1.1 1 AI i� '�/ , a,�1. 0111i1 ill AIPi151111111111 IIIIII 11111111011111111111111111 v; '" �,�,�, ' in• tr ■ ,•" 'I,ilp''ideaI'1111 1 min u m - 'I I;Ii I l:l,, .�"""�A"' N ��'.,� �:ri��h1� ll.111 i l� 1�11 IIIIIIII[N 1 1 :1. I p I • r' 1 .21-1iI 11 11{� I{I i1I.p Awill.✓ .,:!. ,1iglieri�i/1 is ;i AilO�i: li��Ili�ii l�I ll� i i�:Iliill:lli 1 11 1 I , \III ,d�-.411 P,.rkell''Nlr' iN'•tml� ; ' 1 i I ! I m{nn,�1 it'll L v= 10 ,d ' A� 0�•'qA' I L' 1 ,'hl v 5 ���iliiiii® lil 0 3 5 10 20 45.83 cfs 50 100 2001 500 1000 Discharge(ft3/sec) Curves may not be extrapolated. Figure 8.06a Design of outlet protection protection from a round pipe flowing full,minimum tailwater condition(Tw<0.5 diameter). Rev.12/93 8.06.3 Appendices FES-C3 24" Diameter Q10 = 12.57 cfs La = 14' d50 = 6" W = 16' �3 H in 3Do = 6' , i ; , 1n i „1,,. Outlet w = D + L t = 1.2' , ;. : 1 o a pipe 90 I r' 01 I I diameter ( ) I nu La —�1 80 l I r,,r;■r - c ' 1 '' • , ' miill 1 I•41I:r'liilr�i i, T.i lwater 0.5Do � � f _ i i t �j .-,; �•- I 1 III •�1 lIIIIirp"i II •.�1�'/lirlil' • ,i� aril. 7C ,i '�mi•I !r Al, { . 1' al • ✓n.e! ill II! ti 60 C�i, giro } 1111.111 l�UI'I!d I • lu ! 6 1-Il 1i i 1�ii 1 Ili n1 fc,V 50 I i roil •, 1 11! r/Ill/I I�IInIII1�1 \ .i 1 ,.if , , i it�1111111111111NIII��II o ( {1 �1 ;11 I 1i 1 ' ill,, ,li I' a �o a do, Apr , rnliili=�nu I hip. , 1 ,i , i ,, nr 1 11 I n.�ii I { .7i .i i iuiui 111■11 1�1'w u 4 i �/ ■r 11 I IIIIIII ..dII1111' II 1�11III ' i1 p � ; .. � I`.} �I. l l ��'� 'I' F ! i a s., �� �0 u� I� �aiiliu�r; �1 30 # , ' + �' .� �i d �I���ii .i� it ��1�i11� finaurn:ir; /.,ii i 1 III11111/1111iii''; Id I 2, ,.I'j r r�� III ■III I Illlli"A 1�� 0! ,��►�i� / II /,'AiiilP 1.LIII - -1/NM i 1-.J1 Lal sir%� I�� 3 dl I51111:'4dr1rIC 20ill st• ii, 1 1d.-:i 1 Aili ����■ � i III I��III�SRir4111 1r41 li 1 Iliiil m ,n■ur urm 3 ,,,,lopigillill 1 I t. , L t - -1- - ; 11111111VIEW ilki.,<..-4 i II — — ' •,..00.,000••••goolg i i .ti[ 1 1; • - -} -! - ' t, t 1 eir 10 •■■�11 II_ itin kill 9 / •, 'i ii11r ' o%•I■Ier2;L. fir'! %1'!'- lir it wn� !'r in 1 III ■ 11111711- ,'� �.0 , _.-.,r►. iff.l�AlIIi Si'i t v f' !41 ! • =�I V r m ;.[ L .I I;i.l I.[,I ,11, ii 111 � I( lE 11 2° 1�.,I p�' ,.11 ..._'A_�a__:� { ii�il1 ��11 1 1 i111��� �j II 1 i. n I , ii I,In• I Ili:. :Ill 0 3 5 10 20 50 100 200 500 1000 12.57 cfs Discharge(ft3/sec) Curves may not be extrapolated. Figure 8.06a Design of outlet protection protection from a round pipe flowing full,minimum tailwater condition(Tw<0.5 diameter). Rev.12/93 8.06.3 Appendices SD1 24" Diameter Q10 = 16.89 cfs La = 14' d50 = 6" W = 16' 3 0 3Do = 6' ;Hi 1il::a ^ t = 1.2' i ; 1 i , i'i:1 Outlet W = D0 + La i:111 I 1 .11 ;i,i 9 i.. 1..INt11� pipei i .. i ,. IIIIII 1. ., 1 I. I i R ; diameter (Do) I 1 1. ii:1 IIIiin 1'Ili- La ---+1 80. : „ 1 III I irrlr,n,p . T.i l water < 0.50o . i-I 1 I ` :l ' : ; I' I' Ullill l4,� i1!i11',IriN �l, 7c Ai al� {1 ' ' I. -- 1 ' 'II t 1, •! i:i'=1i1�' 11 Oc 1 k 1 I ilt�l,►�! I iii`!i o`k PQt 60 Ili-1 ...t. i 1 I'� a11,iai;l,�•'4 •:�urI. �I1a111/ .1 • IN �g�r ;fi I'1 1 +}� 11 it -i t Ii eti, ' inn I cb . , liii jl y � Ild� ! NlNirl v�\'e I 11. I I.4I ! I I I ttiI II 11 �II� li y Ili' 111N11111 5 � I - U 1 i I i. � � .��1r• Illil 11 11111111111 \c0 0 • lid ,I I I• I I . I- I ,, P� n IIan11111111NN111N �� 'I- • ' I I1 li I 1 � � a � di�'111111111111111N11111 _^ k 1,1 I 60 III:�1 1 t minnow `v i__ t._i. ! .1 l 4f �1 {t1 'll' i.t I '. ' n11 lull 1 1111111. , 40 I I f-a` •■►�■/� 11111111111111 IU!•ilI,1 4 J 1 I{ l; I �' ■ 1 1/1111111 eil iii1/11 I. 1 111 lu niil;Nr1 kr i if I, ii 11 111. -I X`�-' 2�0,i ' ii1111111� ,Ii11111Illiti, 301.. I I ;?I,.I T. - it/,. . IIII IIIIIIIIIII'AV';Ill�d I ---- - -- - -. I - /- �'• r��� ■un I umr�� lli l ' r —.1 1...... — i.,. , I' A i10' I 1r:� 1!'irl n5Ni'. iii 20 — - - ==`n - - i5 ►�d ;j000%1f1.!r�iilll ini:._01E jI!E I 'Iii/l1�5,'i dgrlitl I 2 _ �/�t.i!.;1�;ji/, F ■ Iii0F4pir 1lIJIP•"11' 11! d' s I ilifi to { ffl " i1I ,i LIIIIIIIIIL It e! ;.i' �. I I 3i' W i4?-N II III'' I1 r.� _._ II-I- 1 J 'I , 111!- -- V� ���/• r"�AI!Ili! I'.i_I I , tli salt' / N:.AI:rdra; ►,Ioice_-- ,._ 1 -� �r�/� � /Illi!0i11,111i r• N — l _ i •,i '/ /� .i Iili/ IIIP.Ilalrlll. ilrl 2 1 I .1 i r! - i --.i i/ r , 'Lilirinr7r� 1a I� ( { 11 l i i %� / �LII■I ::,"1:11.11!:al pH., ,_ ._ - -a -----1 t - _- ,i' II 4 -- ' - i I/wiI'd:I�'Iil!11GIIIII�111111 ' � 1 � �I. /i A���Ill�llillllllllll 11111 - - L. . V ;e // ■ i /�P" I4P'III'dlll 1 1 IIIIIIIIIIIII Q ` - j I i I`Ia 11�`I'- '�i'�: ii�'S� ii �liiii Hum111■°iiiiiii ,'. i,._.._ =20` �I�. ''.I/�1ia � 11�111111iii imi��1111111111 11.0 1 t I4 - �5 d rai A11� _ 1 1 I Nllll liil.lII .;: ! .: i n❑I-I . . r I , .1. I: � a i • • y' i ■"�v_5 " . • I : 3 5 10 20 50 100 200 500 1000 16.89 cfs Discharge(ft3/sec) Curves may not be extrapolated. Figure 8.06a Design of outlet protection protection from a round pipe flowing full,minimum tailwater condition(Tw<0.5 diameter). Rev.12/93 8.06.3 Appendices SD2 30" Diameter Q10 = 27.85 cfs La = 16' d50 = 6" W = 18.5' 3 0 3Do = 7.5' iill l I:::I;-. t = 1.2' i it i , II; I Outlet W = D0 + La i;f ML' 1 11 ;l,i 901:- :L:Inul= e P P i l .. •i ,. 'mid o I I. II I R ; diameter (Do) M 1 l i i:�; 'hill ll l‘n!sil�i: La _—A4 80' : I ! - „ -I I III I p !1',Il►,p . T.i lwater < 0.5D0 I 1-I i i ` ; ' : ; 11, `; Milli l4� i,,�i,ii!il l�lr`i, , 7C Q,°1' II L I. 1 ''i t 1, •! i:i'j 'P 'i Ot‘ -4 J l t' .+. _t. . :I :: : ® tI I 1;!IIII r�►.� ''M111 ok Q i. 1I I i 1M �' :�d;diia 5 1 �r II l ++iii 1I 1! -_ ..i 1l l.�, 'e!r'm I . , Ilnr 2C\ .11II-,l II I l'I 'I l i . �1'1'd 1 11111111 �' 1 i II -- ' I - t ( 40� d a n;I • 111n11111 v(� 50 n•l .. . I '1r roil a uwunll ' I,l g i_ _I y I� P ' 1 (j 1/11111111111111n1111 _i\� I k 1:1 I f. I Mil Ii I Fier a i 11 lilt 1 uIIIIIIII IIIIIlI I `v ,.--. !•. 1 ; II. -R 1l :II III, . �� .IIIIMI I!I�I1I !UMW!! :; 4 40 f �i / uu u■ul Nn,fia v, 't L+ III II ill!II" 'fl ' 11 e-A A 4 M ini , illililllll'IMU 1. i s 1e:;. ' 3o I - .-- 14 I ;I'l 11:1ON - iiil!' . iini�i inn i'i 3 l.. I' - - .III 2 .�•• rvl� II;Il�.!m+'i1i16• r .I I.....- -- . . I.., ,i' ,.;;/ lips:� = .i1;1 n� ..ini: - , 1„..n/';p! � ■ cu /�au':20 — - '-n , .\5 ►1dini! i!!iin liIIIIEI ■ ��=iiko!ice ii! 3 ! I Nam pniir 1 ■ - ' 1' 11! v i 10^I �_:_ _ .IIM �: °''� '` a ,ILI ICI -I- Pjii! / 0 I I � � /a�� '.1.A1ai1111g1 ►.I 2 NI II} i1.1 11111 /Illlilinil1.111i11.' N ilui�. ZAN! • , flllllllril.11 • I 1 m� lr t I rl 16 f . ,ii ,_ t 1 ` tt ' 1i ._, iI a ii r.��ri i%ii!afin111 aco _MI 1` .. --- l - I 1I I f .I. .. , � I/SIdiiiiihil!111i11111i111111 .i� � � �I, i/i A���Ijlillillllll Mill 1 1111 Q 4. V �• 0 ' ■ /P I'I'111'd111 1 1 1111III111111 ' _IN:1,"7 -. :lir - --_--- _ tt-tj$ I i.I'i'I I'- ar ,=��; i;Os� 1111l1111 11=■°11111111i 1• i •i1 I Imp!v ,. •per oppiiiir ; i sBil NI I I l!I " I .: 1 nuI1 12 + " 1 . i I + .{. I: : i.:a.v= 10 ,d _ .. '�; 1ii •II �• ii . If I, I i . ; l..• 0 3 5 10 20 50 100 200 500 1000 27.85 CfSDischarge(ft3/sec) Curves may not be extrapolated. Figure 8.06a Design of outlet protection protection from a round pipe flowing full,minimum tailwater condition(Tw<0.5 diameter). Rev.12/93 8.06.3