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SW3201203_Stormwater Report_20210120
Encore at Streamside Stormwater Impact Analysis and Final Design of Stormwater Management Facilities ENCORE AT STREAMSIDE Union County, North Carolina Stormwater Impact Analysis & Design of Stormwater Control Measures Project Number:DWH-19010 Designed By:Marc Van Dine, PE Stuart Woodard, PE Date:December 2020 3430 Toringdon Way, Suite 110 Charlotte, North Carolina 28277 NC Lic. # C-0293 STORMWATER IMPACT ANALYSIS creating experiences through experience 3430 Toringdon Way, Suite 110, Charlotte, NC 28277 /704.527. 0800 GENERAL DESCRIPTION Located in Union County east of the intersection of S Providence Road and Cuthbertson Road is the proposed Encore at Streamside single-family subdivision development.The existing site consists of heavily wooded areas as well as open agricultural fields. Proposed development on this site will consist of the construction of single-family homes and amenity center along with the associated roads and sidewalks, utility improvements, and three stormwater control measures. The proposed development is located within the Catawba River basin with stormwater runoff from the proposed development draining into East Fork Twelvemile Creek as well as a small portion of the site draining to West Fork Twelvemile Creek. Ultimately all runoff combines into Twelvemile Creek at the western property boundary. This development is located within Union County and as a result the proposed stormwater management on this site shall meet both Union County’s Development Standards as well as the stormwater management performance standards for development set forth by NCDEQ’s Phase II Post-Construction SW requirements. These are as follows: Union County Development Standards: 60.170-C Stormwater Management 3.Post-development stormwater discharge rates at the property boundary of an approved cluster development may not exceed the pre-development rate for the 2-and 25-year storm events. This regulation does not apply if discharging directly into a FEMA-regulated floodplain. This project is exempt from this requirement as each facility discharges directly into a FEMA-regulated floodplain. As a result stormwater detention is not required. Stormwater quality is required and is per the state performance standards. In order to meet the water quality requirements,three wet ponds are proposed. The existing pond on- site will serve as an amenity and is not proposed to be used for either stormwater quantity or quality control. This report serves as he stormwater impact analysis for the proposed development and includes design calculations for these facilities. CALCULATION METHODOLOGY >Rainfall data for the analysis was taken from NOAA Atlas 14.Please reference the precipitation information section within this report for additional information. >Using maps contained within the Union county Soil Survey, the on-site soils were determined to be hydrologic soil groups (HSG)‘B’and ‘C’soils. Since the method chosen to compute post- development peak flow rates and runoff volumes is dependent upon the soil type, care was taken when selecting the appropriate Soil Conservation Service Curve Number (SCS CN). A composite SCS CN was computed for each post-development sub-basin. For example,Sub-basin #3 in the post-development analysis consists of approximately 75% HSG ‘B’, and 25% HSG ‘C’soils. Therefore, for the wooded cover condition, the composite SCS CN is computed as follows (assuming good conditions): >Composite Wooded SCS CN =(75%x 55)+ (25% x 70) =59 STORMWATER IMPACT ANALYSIS creating experiences through experience 2 of 2 >A composite SCS Curve Number was calculated for the post-development condition for each sub- basin using SCS curve numbers and land cover conditions.Land cover conditions for the post- development condition were taken from the proposed development plan. >The time of concentration was calculated using SCS TR-55 (Segmental Approach, 1986). The Tc flow path was divided into three segments: overland flow,concentrated flow, and channel flow. The travel time was then computed for each segment, from which the overall time of concentration was determine by taking the sum of each segmental time.For each sub-basin draining to a stormwater control measure a minimum time of concentration of 5 minutes was assumed. >PondPack Version V8i was used in determined the post-development peak flow rates for the 1-, 2-, 10-,25-, and 100-year storm events, as well as routing calculations for the proposed stormwater control measure. >The proposed stormwater control measures were designed in accordance with the Minimum Design Criteria (MDC) standards set forth in the NCDEQ Stormwater Design Manual. DISCUSSION OF RESULTS Peak Runoff Control Requirements: Peak runoff control is not required for this project. Per the Union County development standards quantity control is not required if discharging directly into a FEMA-regulated floodplain which such is the case for this development.The stormwater control measures have been designed to safely pass the higher storm events. Water Quality Requirements: The proposed facilities has been designed in accordance with the Minimum Design Criteria (MDC) standards set forth in the NCDEQ Stormwater Design Manual.The proposed facilities will provide the required 85% TSS removal. CONCLUSION If the development on this tract is built as proposed within this report, then the requirements set forth in Union County’s Development Standards will be met. However, modifications to the proposed development may require that this analysis be revised. Some modifications that would require this analysis to be revised include: >The proposed site impervious surface exceeds the amount accounted for in this report. >The post-development watershed breaks change significantly from those used to prepare this report. The above modifications may result in the assumptions within this report becoming invalid. The computations within this report will need to be revisited if any of the above conditions become apparent as development of the proposed site moves forward. 5 POST-DEVELOPMENT HYDROLOGIC CALCULATIONS 8 STORMWATER CONTROL MEASURE C DESIGN CALCULATIONS 6 STORMWATER CONTROL MEASURE A DESIGN CALCULATIONS 7 STORMWATER CONTROL MEASURE B DESIGN CALCULATIONS 4 SITE PRECIPITATION DATA 1 SUMMARY OF RESULTS 2 MISCELLANEOUS SITE INFORMATION 3 WATERSHED SOILS INFORMATION ENCORE AT STREAMSIDE DWH-19010 SUMMARY OF RESULTS Subsection: Master Network Summary Catchments Summary Peak Flow (ft³/s) Time to Peak (min) Hydrograph Volume (ft³) Return Event (years) ScenarioLabel 5.249187.008,468.0000Post WQVSub-1 31.578186.0046,121.0002Post 2-yearSub-1 72.193186.00124,943.00025Post 25-yearSub-1 93.034186.00163,494.000100Post 100-yearSub-1 5.162186.508,033.0000Post WQVSub-2 27.982186.0040,864.0002Post 2-yearSub-2 62.027186.00107,938.00025Post 25-yearSub-2 79.461186.00140,499.000100Post 100-yearSub-2 9.560187.5018,569.0000Post WQVSub-3 86.251186.50126,844.0002Post 2-yearSub-3 217.360186.00371,541.00025Post 25-yearSub-3 285.405186.00494,117.000100Post 100-yearSub-3 Node Summary Peak Flow (ft³/s) Time to Peak (min) Hydrograph Volume (ft³) Return Event (years) ScenarioLabel 0.139363.006,377.0000Post WQVPOA-1 5.456208.0035,814.0002Post 2-yearPOA-1 45.382191.00114,565.00025Post 25-yearPOA-1 63.481189.50153,095.000100Post 100-yearPOA-1 0.123363.006,109.0000Post WQVPOA-2 3.992212.5030,296.0002Post 2-yearPOA-2 43.629189.5097,288.00025Post 25-yearPOA-2 61.501188.50129,823.000100Post 100-yearPOA-2 0.387362.5015,625.0000Post WQVPOA-3 6.799241.50104,313.0002Post 2-yearPOA-3 96.913194.50348,284.00025Post 25-yearPOA-3 178.456191.00470,643.000100Post 100-yearPOA-3 Pond Summary Maximum Pond Storage (ft³) Maximum Water Surface Elevation (ft) Peak Flow (ft³/s) Time to Peak (min) Hydrograph Volume (ft³) Return Event (years) ScenarioLabel (N/A)(N/A)5.249187.008,468.0000Post WQVSCM A (IN) 7,219.000536.490.139363.006,377.0000Post WQVSCM A (OUT) (N/A)(N/A)31.578186.0046,121.0002Post 2-yearSCM A (IN) 26,748.000537.655.456208.0035,814.0002Post 2-yearSCM A (OUT) (N/A)(N/A)72.193186.00124,943.00025Post 25-yearSCM A (IN) 45,088.000538.6445.382191.00114,565.00025Post 25-yearSCM A (OUT) (N/A)(N/A)93.034186.00163,494.000100Post 100-yearSCM A (IN) 52,686.000539.0263.481189.50153,095.000100Post 100-yearSCM A (OUT) (N/A)(N/A)5.162186.508,033.0000Post WQVSCM B (IN) 12/11/2020DWH-19010.ppc J. Mattingly, EIBelshire Subdivision Subsection: Master Network Summary Pond Summary Maximum Pond Storage (ft³) Maximum Water Surface Elevation (ft) Peak Flow (ft³/s) Time to Peak (min) Hydrograph Volume (ft³) Return Event (years) ScenarioLabel 6,836.000519.600.123363.006,109.0000Post WQVSCM B (OUT) (N/A)(N/A)27.982186.0040,864.0002Post 2-yearSCM B (IN) 25,400.000520.973.992212.5030,296.0002Post 2-yearSCM B (OUT) (N/A)(N/A)62.027186.00107,938.00025Post 25-yearSCM B (IN) 37,884.000521.8143.629189.5097,288.00025Post 25-yearSCM B (OUT) (N/A)(N/A)79.461186.00140,499.000100Post 100-yearSCM B (IN) 42,918.000522.1261.501188.50129,823.000100Post 100-yearSCM B (OUT) (N/A)(N/A)9.560187.5018,569.0000Post WQVSCM C (IN) 14,924.000513.360.387362.5015,625.0000Post WQVSCM C (OUT) (N/A)(N/A)86.251186.50126,844.0002Post 2-yearSCM C (IN) 87,002.000514.876.799241.50104,313.0002Post 2-yearSCM C (OUT) (N/A)(N/A)217.360186.00371,541.00025Post 25-yearSCM C (IN) 162,455.000516.2996.913194.50348,284.00025Post 25-yearSCM C (OUT) (N/A)(N/A)285.405186.00494,117.000100Post 100-yearSCM C (IN) 186,128.000516.71178.456191.00470,643.000100Post 100-yearSCM C (OUT) 12/11/2020DWH-19010.ppc J. Mattingly, EIBelshire Subdivision ENCORE AT STREAMSIDE DWH-19010 MISCELLANEOUS SITE INFORMATION NC Center for Geographic Information & Analysis, Esri, HERE, Garmin, ©OpenStreetMap contributors 0 2,00 0 4,00 01,00 0 Feet1 inch = 2,000 feet ¯ENCORE AT STREAMSIDE SITE A ERIAL MAPPROJECT #: DWH -19010UNION COUNTY, NORTH CAROLINA Copyright:© 2013 National Geographic Society, i-cubed 0 2,000 4,0001,000 Feet1 inch = 2,000 feet ¯ENCORE AT STREAMSIDE USGS TOPO MAPPROJECT #: DWH -19010UNION COUNTY, NORTH CAROLINA )/22'+$=$5',1)250$7,21 63(&,$/)/22' +$=$5'$5($6 27+(5 $5($6 2) )/22'+$=$5' 27+(5 $5($6 *(1(5$/ 6758&785(6 :LWKRXW %DVH )ORRG (OHYDWLRQ %)( :LWK %)(RU 'HSWK 5HJXODWRU\)ORRGZD\ $UHDV 'HWHUPLQHG WR EH 2XWVLGH WKH $QQXDO &KDQFH )ORRGSODLQ 1RQDFFUHGLWHG /HYHH'LNHRU )ORRGZDOO =RQH $9$ =RQH $($2$+9($5 =RQH ; +773)5,61&*29)5,6 7+(,1)250$7,21 '(3,&7('21 7+,6 0$3 $1'6833257,1* '2&80(17$7,21 $5($/62 $9$,/$%/(,1 ',*,7$/)250$7 $7 1257+&$52/,1$)/22'3/$,1 0$33,1*352*5$0 )/22',1685$1&(5$7(0$3 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Detailed Report: Charlotte Element Details 206ID Notes CharlotteLabel 1 inch 1 inchLabel min5.00Increment years0Return Event min360.00End Time min0.00Start Time IncrementalStorm Event Depth Type 1 inch Depth (in) Depth (in) Depth (in) Depth (in) Depth (in) Time (min) 0.0030.0030.0030.0030.0000.00 0.0040.0040.0040.0030.00325.00 0.0040.0040.0040.0040.00450.00 0.0060.0050.0050.0050.00575.00 0.0080.0080.0070.0070.007100.00 0.0120.0110.0100.0090.009125.00 0.0390.0250.0220.0190.013150.00 0.0430.0750.1880.1080.050175.00 0.0120.0140.0200.0230.028200.00 0.0080.0090.0090.0100.011225.00 0.0060.0070.0070.0070.008250.00 0.0050.0050.0050.0050.005275.00 0.0040.0040.0040.0040.004300.00 0.0030.0030.0040.0040.004325.00 (N/A)(N/A)0.0030.0030.003350.00 1 year 24 hr 1 year 24 hrLabel min6.00Increment years1Return Event min1,440.00End Time min0.00Start Time IncrementalStorm Event Depth Type 1 year 24 hr Depth (in) Depth (in) Depth (in) Depth (in) Depth (in) Time (min) 0.0030.0030.0030.0030.0000.00 0.0030.0030.0030.0030.00330.00 0.0030.0030.0030.0030.00360.00 0.0030.0030.0030.0030.00390.00 0.0030.0030.0030.0030.003120.00 0.0030.0030.0030.0030.003150.00 0.0040.0030.0030.0030.003180.00 0.0040.0030.0040.0040.003210.00 0.0040.0040.0040.0040.004240.00 0.0040.0040.0040.0040.004270.00 0.0040.0040.0040.0040.004300.00 0.0050.0040.0040.0050.004330.00 0.0050.0050.0050.0050.005360.00 0.0050.0050.0050.0050.005390.00 0.0050.0050.0050.0050.005420.00 0.0060.0050.0050.0050.005450.00 12/11/2020DWH-19010.ppc J. Mattingly, EIBelshire Subdivision Storm Data Detailed Report: Charlotte 1 year 24 hr Depth (in) Depth (in) Depth (in) Depth (in) Depth (in) Time (min) 0.0070.0060.0060.0060.006480.00 0.0080.0080.0080.0070.007510.00 0.0080.0080.0080.0080.008540.00 0.0100.0090.0090.0090.008570.00 0.0120.0120.0110.0110.010600.00 0.0170.0160.0150.0140.013630.00 0.0270.0250.0220.0200.018660.00 0.3540.1970.1230.0610.030690.00 0.0320.0370.0430.0490.245720.00 0.0180.0190.0210.0220.025750.00 0.0130.0140.0140.0160.017780.00 0.0100.0110.0110.0120.012810.00 0.0090.0090.0090.0100.010840.00 0.0080.0080.0090.0090.009870.00 0.0070.0070.0080.0080.008900.00 0.0060.0070.0070.0070.007930.00 0.0060.0060.0060.0060.006960.00 0.0050.0050.0050.0060.006990.00 0.0050.0050.0050.0050.0051,020.00 0.0050.0050.0050.0050.0051,050.00 0.0040.0050.0040.0050.0051,080.00 0.0040.0040.0040.0040.0041,110.00 0.0040.0040.0040.0040.0041,140.00 0.0040.0030.0040.0040.0041,170.00 0.0030.0030.0030.0030.0031,200.00 0.0030.0030.0030.0030.0031,230.00 0.0030.0030.0030.0030.0031,260.00 0.0030.0030.0030.0030.0031,290.00 0.0030.0030.0030.0030.0031,320.00 0.0030.0030.0030.0030.0031,350.00 0.0030.0030.0030.0030.0031,380.00 0.0030.0030.0030.0030.0031,410.00 (N/A)(N/A)(N/A)(N/A)0.0031,440.00 2 year 2 yearLabel min5.00Increment years2Return Event min360.00End Time min0.00Start Time IncrementalStorm Event Depth Type 2 year Depth (in) Depth (in) Depth (in) Depth (in) Depth (in) Time (min) 0.0080.0080.0070.0070.0000.00 0.0090.0090.0080.0080.00825.00 0.0100.0100.0100.0090.00950.00 0.0140.0120.0110.0110.01175.00 0.0180.0170.0160.0150.014100.00 0.0280.0260.0240.0220.021125.00 0.0890.0580.0500.0440.031150.00 0.1000.1680.4200.2420.115175.00 12/11/2020DWH-19010.ppc J. Mattingly, EIBelshire Subdivision Storm Data Detailed Report: Charlotte 2 year Depth (in) Depth (in) Depth (in) Depth (in) Depth (in) Time (min) 0.0290.0330.0470.0540.064200.00 0.0180.0210.0230.0250.027225.00 0.0140.0150.0160.0160.017250.00 0.0100.0110.0110.0120.012275.00 0.0090.0090.0090.0100.010300.00 0.0080.0080.0080.0080.009325.00 (N/A)(N/A)0.0070.0070.008350.00 10 year 10 yearLabel min5.00Increment years10Return Event min360.00End Time min0.00Start Time IncrementalStorm Event Depth Type 10 year Depth (in) Depth (in) Depth (in) Depth (in) Depth (in) Time (min) 0.0120.0120.0110.0110.0000.00 0.0130.0130.0130.0120.01225.00 0.0160.0150.0150.0140.01450.00 0.0230.0180.0180.0170.01675.00 0.0290.0270.0260.0250.024100.00 0.0490.0450.0420.0390.036125.00 0.1610.1030.0890.0790.054150.00 0.1770.2750.5900.3950.201175.00 0.0510.0570.0840.0960.112200.00 0.0300.0380.0400.0430.047225.00 0.0230.0240.0250.0270.028250.00 0.0160.0170.0170.0180.019275.00 0.0140.0140.0150.0150.016300.00 0.0120.0120.0130.0130.013325.00 (N/A)(N/A)0.0110.0110.012350.00 25 year 25 yearLabel min5.00Increment years25Return Event min360.00End Time min0.00Start Time IncrementalStorm Event Depth Type 25 year Depth (in) Depth (in) Depth (in) Depth (in) Depth (in) Time (min) 0.0150.0140.0140.0140.0000.00 0.0170.0160.0160.0150.01525.00 0.0190.0190.0180.0180.01750.00 0.0250.0230.0220.0210.02075.00 0.0330.0310.0290.0280.027100.00 0.0580.0530.0490.0460.043125.00 0.1890.1200.1040.0930.064150.00 0.2080.3240.6800.4660.235175.00 12/11/2020DWH-19010.ppc J. Mattingly, EIBelshire Subdivision Storm Data Detailed Report: Charlotte 25 year Depth (in) Depth (in) Depth (in) Depth (in) Depth (in) Time (min) 0.0610.0670.0980.1110.131200.00 0.0340.0450.0480.0510.055225.00 0.0260.0270.0290.0300.032250.00 0.0200.0210.0210.0220.023275.00 0.0170.0170.0180.0190.019300.00 0.0150.0150.0160.0160.016325.00 (N/A)(N/A)0.0140.0140.014350.00 50 year 50 yearLabel min5.00Increment years50Return Event min360.00End Time min0.00Start Time IncrementalStorm Event Depth Type 50 year Depth (in) Depth (in) Depth (in) Depth (in) Depth (in) Time (min) 0.0170.0160.0160.0160.0000.00 0.0190.0190.0180.0180.01725.00 0.0220.0220.0210.0200.02050.00 0.0310.0260.0250.0240.02375.00 0.0390.0370.0350.0330.032100.00 0.0660.0610.0560.0530.049125.00 0.2090.1330.1160.1030.073150.00 0.2310.3560.7490.5130.260175.00 0.0690.0770.1090.1240.145200.00 0.0400.0510.0540.0580.063225.00 0.0310.0330.0340.0360.038250.00 0.0230.0230.0240.0250.026275.00 0.0190.0200.0210.0210.022300.00 0.0170.0170.0180.0180.019325.00 (N/A)(N/A)0.0160.0160.017350.00 100 year 100 yearLabel min5.00Increment years100Return Event min360.00End Time min0.00Start Time IncrementalStorm Event Depth Type 100 year Depth (in) Depth (in) Depth (in) Depth (in) Depth (in) Time (min) 0.0180.0180.0170.0170.0000.00 0.0210.0200.0200.0200.01925.00 0.0240.0230.0230.0220.02250.00 0.0320.0280.0270.0260.02575.00 0.0410.0390.0370.0350.034100.00 0.0710.0650.0600.0560.053125.00 0.2260.1470.1260.1130.078150.00 0.2500.3860.8300.5550.282175.00 12/11/2020DWH-19010.ppc J. Mattingly, EIBelshire Subdivision Storm Data Detailed Report: Charlotte 100 year Depth (in) Depth (in) Depth (in) Depth (in) Depth (in) Time (min) 0.0740.0820.1190.1360.160200.00 0.0420.0550.0580.0630.068225.00 0.0330.0340.0360.0380.040250.00 0.0250.0250.0260.0270.029275.00 0.0210.0220.0220.0230.024300.00 0.0190.0190.0200.0200.021325.00 (N/A)(N/A)0.0170.0180.018350.00 100 year 50 year 25 year 10 year 2 year 1 year 24 hr 1 inchDepth (in)0.875 0.750 0.625 0.500 0.375 0.250 0.125 0.000 Time (min) 1,440.001,296.001,152.001,008.00864.00720.00576.00432.00288.00144.000.00 12/11/2020DWH-19010.ppc J. Mattingly, EIBelshire Subdivision ENCORE AT STREAMSIDE DWH-19010 POST-DEVELOPMENT HYDROLOGIC CALCULATIONS CLIENT REVISIONS PROJECT NO.DWH-19010 FILENAME CHECKED BY SAW DRAWN BY SAW/AJB/SAG/JMC SCALE DATE 10. 12. 2020 N0.DATE Y:\Projects\DWH\DWH-19010\04-Production\Engineering\Construction Drawings\Current Drawings\DWH19010-Post.dwg, 11/19/2020 3:29:24 PM, Woodard, StuartThe John R. McAdams Company, Inc. www.mcadamsco.com 3430 Toringdon Way Suite 110 phone 704. 527. 0800 fax 919. 361. 2269 license number: C-0293, C-187 Charlotte, NC 28277 ENCORE AT STREAMSIDECONSTRUCTION DRAWINGS2219 CUTHBERTSON ROADWAXHAW, NORTH CAROLINA, 28173SHEET PLAN INFORMATION FINAL DRAWING - NOT RELEASED FOR CONSTRUCTION DAVID WEEKLEY HOMES - CHARLOTTE DIVISION 11430 NORTH COMMUNITY HOUSE ROAD SUITE 275, CHARLOTTE, NC 28277 PHONE: 704. 972. 4205 DWH19010-Post POST 1"=200' POST DEVELOPMENTGRAPHIC SCALE 0 100 200 400 1 inch = 200 ft. SITE LEGEND CONTRACTOR SHALL NOTIFY "NC811" (811) OR (1-800-632-4949) AT LEAST 3 FULL BUSINESS DAYS PRIOR TO BEGINNING CONSTRUCTION OR EXCAVATION TO HAVE EXISTING UTILITIES LOCATED. CONTRACTOR SHALL CONTACT ANY LOCAL UTILITIES THAT PROVIDE THEIR OWN LOCATOR SERVICES INDEPENDENT OF "NC811". REPORT ANY DISCREPANCIES TO THE ENGINEER IMMEDIATELY. R EXISTING CUTHBERTSON ROAD (PUBLIC R/W) ADJACENT PARCEL INFORMATION 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26272829 30 31323334353637383940 41 42 43 44 45 46 47 48 50 5152 53 54 55 56 57 58 59 6061 62 6364 65 66 67 68 69 70 71 72 73 74 75 76 77 78 97 96 94 93 92 91 90 89 8879 80 81 82 83 84 85 86 87 98 99 100 101 102 322 321 320 319 318 317 316 315 314 313 312 311 310 309 308 307 306 305 304 303 302301 300 299 298 297 256 257 258 259 260 261 262 263 264 265 266 267 268 269 270 271 255 254 253 252 251 250 249 248 247 272 273 274 275 276 277 278 279 280 281 282 283 284 285 286 287 288 289 290 291 292 293 294 295 296 160 161 159 158 157 156 155 154 153 152 151 150 216 215 214 213 212 211 210 209 208 207 206 191 192 193 194 195 196 197 198 199 200 201 202 203 204 205 218 219 220 246 245 244 243 242 241 240 239 238 237 236 235 221 222 223 224 225 226 227 228 229 230 231 232 233 234 167 166 179 178 177 176 175 174 182 183 184 185 186 187 188 181180 165 164 163 162 49 190 189 149 148 147 146 145 144 143 142 141 140 139 138 137 136 135 134 173172171170 169 168 133 132 131 130 129 128 103 104 105 106 107 108 109 110 111 112 127 126 125 124 123 122 121 120 119 113 114 115 116 117118 95 ENCORE L A N E BOURN LANE MEANDER LANE MEANDE R L A N E LOWLAND ALLEYENCORE LA N ECANE WAYENCORE LANEIDYLLIC LANEID Y L L I C L A N E M I N E R A L W A Y PASTO R A L P L A C E FEN L A N E PASTORAL PLACE 217 HYDROLOGY MAP POA 1 SUB 1-TO SCM A AREA = 11.90 AC POA 2 SUB 2-TO SCM B AREA = 9.95 AC POA 3 SUB 3-TO SCM C AREA = 38.55 AC SCM A SCM B SCM C Project Name: Encore at Streamside Date: 12/11/2020 Project Number:DWH-19010 Calculated By:S. Woodard, PE INPUT SUMMARY Total Area Subbasin ID Impervious Open Wooded Pond Total Impervious Open Wooded Pond 2-ac Lots Total [acres]SCS CN Tc [min] 1-To SCM A 5.41 6.01 0.00 0.31 11.73 0.16 0.00 0.00 0.00 0.00 0.16 11.90 86 5.00 2-To SCM B 4.94 4.77 0.00 0.24 9.95 0.00 0.00 0.00 0.00 0.00 0.00 9.95 87 5.00 3-To SCM C 20.62 17.60 0.00 0.86 39.08 0.00 0.00 0.00 0.00 0.00 0.00 39.08 83 5.00 Totals 5.41 6.01 0.00 0.31 11.73 0.16 0.00 0.00 0.00 0.00 0.16 11.90 POST DEVELOPMENT HYDROLOGIC SUMMARY Onsite Area [acres]Offsite Area [acres] Project Name:Encore at Streamside Date:12/11/2020 Project Number:DWH-19010 Calculated By:S. Woodard, PE Subbasin ID:1-To SCM A SCS CURVE NUMBER (REF: TR-55 and NRCS Web Soil Survey). HSG Impervious Open Wooded Pond A 98 39 30 100 B 98 61 55 100 C 98 74 70 100 D 98 80 77 100 HSG 'A' =0% HSG 'B' =0% HSG 'C' =100% HSG 'D' =0% Cover Composite Condition SCS CN Impervious 98 Open 74 Wooded 70 Pond 100 WATERSHED BREAKDOWN # of Onsite Lots =40 Type Area No. of Units Imp. Area Assumed Impervious Area per Lot =3,374 sf Bldg Pad Area 45 x 75 9 30375 Total Impervious Area from Onsite Lots =134,950 sf Bldg Pad Area 35 x 75 31 81375 Driveways 20 x 20 48 19200 Additional Onsite Impervious Area =100,858 sf Patios 10 x 10 40 4000 Total 134950 Composite Area Area SCS CN [sf][acres] 98 235,808 5.41 Type Area 74 261,976 6.01 Roadway 70009 70 0 0.00 Sidewalk 24369 100 13,323 0.31 Driveways 6480 98 7,173 0.16 Total 100858 74 0 0.00 70 0 0.00 100 0 0.00 Total Area =518,280 sf =11.90 acres Composite SCS CN =86 % Impervious =46.88% TIME OF CONCENTRATION Time of Concentration =5.00 minutes SCS Lag Time =3.00 minutes Offsite Wooded Assume good condition Offsite Pond - Onsite Pond - Offsite Impervious - Offsite Open Assume good condition Onsite Impervious - Onsite Open Assume good condition Onsite Wooded Assume good condition Impervious Area Outside of Right-of-Way (Onsite Lots) Additional On-Site Imp. Area - POST DEVELOPMENT HYDROLOGIC CALCULATIONS Comments - Assume good condition Assume good condition Contributing Area Comments Project Name:Encore at Streamside Date:12/11/2020 Project Number:DWH-19010 Calculated By:S. Woodard, PE Subbasin ID:2-To SCM B SCS CURVE NUMBER (REF: TR-55 and NRCS Web Soil Survey). HSG Impervious Open Wooded Pond A 98 39 30 100 B 98 61 55 100 C 98 74 70 100 D 98 80 77 100 HSG 'A' =0% HSG 'B' =0% HSG 'C' =100% HSG 'D' =0% Cover Composite Condition SCS CN Impervious 98 Open 74 Wooded 70 Pond 100 WATERSHED BREAKDOWN # of Onsite Lots =38 Type Area No. of Units Imp. Area Assumed Impervious Area per Lot =3,463 sf Bldg Pad Area 45 x 75 15 50625 Total Impervious Area from Onsite Lots =131,600 sf Bldg Pad Area 35 x 75 23 60375 Driveways 20 x 20 42 16800 Additional Onsite Impervious Area =83,743 sf Patios 10 x 10 38 3800 Total 131600 Composite Area Area SCS CN [sf][acres] 98 215,343 4.94 Type Area 74 207,997 4.77 Roadway 57394 70 0 0.00 Sidewalk 19629 100 10,239 0.24 Driveways 6720 98 0 0.00 Total 83743 74 0 0.00 70 0 0.00 100 0 0.00 Total Area =433,579 sf =9.95 acres Composite SCS CN =87 % Impervious =49.67% TIME OF CONCENTRATION Time of Concentration =5.00 minutes SCS Lag Time =3.00 minutes Offsite Pond - Offsite Impervious - Offsite Open Assume good condition Offsite Wooded Assume good condition Onsite Open Assume good condition Onsite Wooded Assume good condition Onsite Pond - Impervious Area Outside of Right-of-Way (Onsite Lots) Contributing Area Comments Additional On-Site Imp. Area Onsite Impervious - - POST DEVELOPMENT HYDROLOGIC CALCULATIONS Comments - Assume good condition Assume good condition Project Name:Encore at Streamside Date:12/11/2020 Project Number:DWH-19010 Calculated By:S. Woodard, PE Subbasin ID:3-To SCM C SCS CURVE NUMBER (REF: TR-55 and NRCS Web Soil Survey). HSG Impervious Open Wooded Pond A 98 39 30 100 B 98 61 55 100 C 98 74 70 100 D 98 80 77 100 HSG 'A' =0% HSG 'B' =75% HSG 'C' =25% HSG 'D' =0% Cover Composite Condition SCS CN Impervious 98 Open 64 Wooded 59 Pond 100 WATERSHED BREAKDOWN # of Onsite Lots =148 Type Area No. of Units Imp. Area Assumed Impervious Area per Lot =3,380 sf Bldg Pad Area 45 x 75 34 116473 Total Impervious Area from Onsite Lots =500,223 sf Bldg Pad Area 35 x 75 114 299250 Driveways 20 x 20 174 69600 Additional Onsite Impervious Area =398,097 sf Patios 10 x 10 147 14900 Total 500223 Composite Area Area SCS CN [sf][acres] 98 898,320 20.62 Type Area 64 766,589 17.60 Roadway 238794 59 0 0.00 Sidewalk 76552 100 37,331 0.86 Driveways 27840 98 0 0.00 Amenity 54911 64 0 0.00 Total 398097 59 0 0.00 100 0 0.00 Total Area =1,702,240 sf =39.08 acres Composite SCS CN =83 % Impervious =52.77% TIME OF CONCENTRATION Time of Concentration =5.00 minutes SCS Lag Time =3.00 minutes Offsite Pond - Offsite Impervious - Offsite Open Assume good condition Offsite Wooded Assume good condition Onsite Open Assume good condition Onsite Wooded Assume good condition Onsite Pond - Impervious Area Outside of Right-of-Way (Onsite Lots) Contributing Area Comments Additional On-Site Imp. Area Onsite Impervious - - POST DEVELOPMENT HYDROLOGIC CALCULATIONS Comments - Assume good condition Assume good condition Scenario: Post WQV 12/11/2020DWH-19010.ppc J. Mattingly, EIBelshire Subdivision Subsection: Master Network Summary Catchments Summary Peak Flow (ft³/s) Time to Peak (min) Hydrograph Volume (ft³) Return Event (years) ScenarioLabel 5.249187.008,468.0000Post WQVSub-1 31.578186.0046,121.0002Post 2-yearSub-1 72.193186.00124,943.00025Post 25-yearSub-1 5.162186.508,033.0000Post WQVSub-2 27.982186.0040,864.0002Post 2-yearSub-2 62.027186.00107,938.00025Post 25-yearSub-2 9.560187.5018,569.0000Post WQVSub-3 86.251186.50126,844.0002Post 2-yearSub-3 217.360186.00371,541.00025Post 25-yearSub-3 Node Summary Peak Flow (ft³/s) Time to Peak (min) Hydrograph Volume (ft³) Return Event (years) ScenarioLabel 0.139363.006,377.0000Post WQVPOA-1 5.456208.0035,814.0002Post 2-yearPOA-1 45.382191.00114,565.00025Post 25-yearPOA-1 0.123363.006,109.0000Post WQVPOA-2 3.992212.5030,296.0002Post 2-yearPOA-2 43.629189.5097,288.00025Post 25-yearPOA-2 0.387362.5015,625.0000Post WQVPOA-3 6.799241.50104,313.0002Post 2-yearPOA-3 96.913194.50348,284.00025Post 25-yearPOA-3 Pond Summary Maximum Pond Storage (ft³) Maximum Water Surface Elevation (ft) Peak Flow (ft³/s) Time to Peak (min) Hydrograph Volume (ft³) Return Event (years) ScenarioLabel (N/A)(N/A)5.249187.008,468.0000Post WQVSCM A (IN) 7,219.000536.490.139363.006,377.0000Post WQVSCM A (OUT) (N/A)(N/A)31.578186.0046,121.0002Post 2-yearSCM A (IN) 26,748.000537.655.456208.0035,814.0002Post 2-yearSCM A (OUT) (N/A)(N/A)72.193186.00124,943.00025Post 25-yearSCM A (IN) 45,088.000538.6445.382191.00114,565.00025Post 25-yearSCM A (OUT) (N/A)(N/A)5.162186.508,033.0000Post WQVSCM B (IN) 6,836.000519.600.123363.006,109.0000Post WQVSCM B (OUT) (N/A)(N/A)27.982186.0040,864.0002Post 2-yearSCM B (IN) 25,400.000520.973.992212.5030,296.0002Post 2-yearSCM B (OUT) (N/A)(N/A)62.027186.00107,938.00025Post 25-yearSCM B (IN) 37,884.000521.8143.629189.5097,288.00025Post 25-yearSCM B (OUT) (N/A)(N/A)9.560187.5018,569.0000Post WQVSCM C (IN) 14,924.000513.360.387362.5015,625.0000Post WQVSCM C (OUT) 12/11/2020DWH-19010.ppc J. Mattingly, EIBelshire Subdivision Subsection: Master Network Summary Pond Summary Maximum Pond Storage (ft³) Maximum Water Surface Elevation (ft) Peak Flow (ft³/s) Time to Peak (min) Hydrograph Volume (ft³) Return Event (years) ScenarioLabel (N/A)(N/A)86.251186.50126,844.0002Post 2-yearSCM C (IN) 87,002.000514.876.799241.50104,313.0002Post 2-yearSCM C (OUT) (N/A)(N/A)217.360186.00371,541.00025Post 25-yearSCM C (IN) 162,455.000516.2996.913194.50348,284.00025Post 25-yearSCM C (OUT) 12/11/2020DWH-19010.ppc J. Mattingly, EIBelshire Subdivision ENCORE AT STREAMSIDE DWH-19010 DESIGN OF STORMWATER CONTROL MEASURE A Encore at Streamside DWH-19010 STORMWATER CONTROL MEASURE SSFxn Above NP S. Woodard, PE 01/08/2020 STAGE-STORAGE FUNCTION - ABOVE NORMAL POOL Average Incremental Accumulated Estimated Contour Contour Contour Contour Stage Contour Stage Area Area Volume Volume w/ S-S Fxn (feet)(feet)(SF)(SF)(CF)(CF)(feet) 536.00 0.00 13,323 536.50 0.50 15,930 14627 7313 7313 0.50 537.00 1.00 16,743 16337 8168 15482 0.99 538.00 2.00 18,411 17577 17577 33059 1.98 538.50 2.50 19,267 18839 9420 42478 2.49 539.00 3.00 20,136 19702 9851 52329 3.01 539.50 3.50 21,020 20578 10289 62618 3.54 1.101221687 9.653216715 15571.79766 KS = 15572 b =1.1012 y = 15572x1.1012 R² = 0.9999 0 10000 20000 30000 40000 50000 60000 70000 0.00 1.00 2.00 3.00 4.00Storage (CF)Stage (feet) Storage vs. Stage Encore at Streamside DWH-19010 STORMWATER CONTROL MEASURE SSFxn Main Pool S. Woodard, PE 01/08/2020 STAGE-STORAGE FUNCTION - MAIN POOL Average Incremental Accumulated Estimated Contour Contour Contour Contour Stage Contour Stage Area Area Volume Volume w/ S-S Fxn (feet)(feet)(SF)(SF)(CF)(CF)(feet) 530.00 -1.00 4,486 531.00 0.00 5,158 532.00 1.00 5,859 5509 5509 5509 1.00 535.00 4.00 8,129 6994 20982 26491 3.95 535.50 4.50 8,531 8330 4165 30656 4.48 536.00 5.00 10,371 9451 4726 35381 5.08 *surface area and volume used for avg. depth calculation 1.146014749 8.61155961 5494.811763 KS = 5495 b =1.1460 Sediment Storage y = 5494.8x1.146 R² = 0.9997 0 5000 10000 15000 20000 25000 30000 35000 40000 0.00 1.00 2.00 3.00 4.00 5.00 6.00Storage (CF)Stage (feet) Storage vs. Stage Encore at Streamside DWH-19010 STORMWATER CONTROL MEASURE SSFxn Forebay S. Woodard, PE 01/08/2020 STAGE-STORAGE FUNCTION - FOREBAY Average Incremental Accumulated Estimated Contour Contour Contour Contour Stage Contour Stage Area Area Volume Volume w/ S-S Fxn (feet)(feet)(SF)(SF)(CF)(CF)(feet) 531.00 -1.00 660 532.00 0.00 887 535.00 3.00 1,754 1321 3962 3962 3.01 535.50 3.50 1,924 1839 920 4881 3.48 536.00 4.00 2,603 2264 1132 6013 4.01 1.44795552 6.689047185 803.5562466 KS = 803.6 b =1.4480 Sediment Storage y = 803.56x1.448 R² = 0.9983 0 1000 2000 3000 4000 5000 6000 7000 0.00 1.00 2.00 3.00 4.00 5.00Storage (CF)Stage (feet) Storage vs. Stage Encore at Streamside DWH-19010 STORMWATER CONTROL MEASURE Volume Calculation S. Woodard, PE 01/08/2020 TOTAL VOLUME OF FACILITY Volume of Main Pool below Normal Pool=35,381 cf Volume of Forebay below Normal Pool=6,013 cf Total Volume Below Normal Pool =41,394 cf Total Volume Above Normal Pool=62,618 cf Total Volume of Facility =104,012 cf FOREBAY PERCENTAGE OF PERMANENT POOL VOLUME approximately 15-20% of the main pool volume. Total Main Pool Volume =35,381 cf Provided Forebay Volume =6,013 cf Provided Forebay Volume % =17% AVERAGE DEPTH OF MAIN POOL Main Pool Volume at Normal Pool =35,381 cf Main Pool Area at Normal Pool =10,371 sf Average Depth =3.41 ft Per NCDEQ Minimum Design Criteria, the forebay volume should equal Encore at Streamside DWH-19010 STORMWATER CONTROL MEASURE Surface Area Calculation S. Woodard, PE 01/08/2020 WET DETENTION BASIN SUMMARY Enter the drainage area characteristics ==> 11.90 acres 5.58 acres Note The basin must be sized to treat all impervious surface runoff draining into the pond, not just the impervious surface from on-site development. Drainage area =11.90 acres @ 46.9%impervious Estimate the surface area required at pond normal pool elevation ==> Wet Detention Basins are based on an minimum average depth of =3.41 feet (Calculated) 3.0 3.41 4.0 Lower Boundary =>40.0 1.51 1.24 Site % impervious =>46.9 1.70 1.59 1.43 Upper Boundary =>50.0 1.79 1.51 Therefore, SA/DA required =1.59 Surface area required for main pool at normal pool = 8,234 ft2 =0.19 acres Surface area provided for main pool at normal pool = 10,371 ft2 Total drainage area to pond = Total impervious area to pond = Encore at Streamside DWH-19010 STORMWATER CONTROL MEASURE WQV Calculation S. Woodard, PE 01/08/2020 DETERMINATION OF WATER QUALITY VOLUME WQ V = (P)(R V )(A)/12 where, WQV = water quality volume (in acre-ft) RV = 0.05+0.009(I) where I is percent impervious cover A = area in acres P = rainfall (in inches) Input data: Total area, A =11.90 acres Impervious area =5.58 acres Percent impervious cover, I =46.9 % Rainfall, P =1.00 inches Calculated values: RV = 0.47 WQV = 0.47 acre-ft =20383 cf. ASSOCIATED DEPTH IN POND WQV = 20383 cf. Stage / Storage Data: Ks =15572 b =1.101 Zo =536.00 Volume in 1" rainfall =20383 cf. Calculated values: Depth of WQv in Basin =1.28 ft =15.32 inches Elevation =537.28 ft Encore at Streamside DWH-19010 STORMWATER CONTROL MEASURE WQV Drawdown Calculation S. Woodard, PE 01/08/2020 DRAWDOWN ORIFICE DESIGN D orifice =2.25 inch # orifices =1 Ks =15572 b =1.1012 Cd orifice =0.60 Normal Pool Elevation =536.00 feet Volume @ Normal Pool =0 cf Orifice Invert =536.00 feet WSEL @ 1" Runoff Volume =537.28 feet WSEL Vol. Stored Orifice Flow Avg. Flow Incr. Vol.Incr. Time (feet)(cf)(cfs)(cfs)(cf)(sec) 537.28 20383 0.144 537.17 18425 0.137 0.141 1958 13900 537.05 16485 0.130 0.134 1939 14505 536.94 14567 0.122 0.126 1919 15214 536.83 12671 0.114 0.118 1896 16061 536.72 10802 0.105 0.109 1870 17101 536.61 8961 0.095 0.100 1840 18424 536.49 7155 0.084 0.089 1806 20192 536.38 5391 0.071 0.078 1765 22748 536.27 3678 0.056 0.063 1712 26987 536.16 2038 0.031 0.044 1640 37630 Drawdown Time =2.35 days Storm Event: 1 inchLabel: SCM A Return Event: 0 yearsSubsection: Elevation-Area Volume Curve Volume (Total) (ft³) Volume (ft³) A1+A2+sqr (A1*A2) (ft²) Area (ft²) Planimeter (ft²) Elevation (ft) 0.0000.0000.0013,323.000.000536.00 7,304.0007,304.00043,821.3015,930.000.000536.50 15,471.0008,167.00049,004.4416,743.000.000537.00 33,041.00017,570.00052,711.2018,411.000.000538.00 42,460.0009,419.00056,512.1419,267.000.000538.50 52,310.0009,850.00059,099.7120,136.000.000539.00 62,598.00010,288.00061,729.2521,020.000.000539.50 12/11/2020DWH-19010.ppc J. Mattingly, EIBelshire Subdivision Storm Event: 1 inchLabel: SCM A Return Event: 0 yearsSubsection: Outlet Input Data Requested Pond Water Surface Elevations ft536.00Minimum (Headwater) ft0.50Increment (Headwater) ft539.50Maximum (Headwater) Outlet Connectivity E2 (ft) E1 (ft) OutfallDirectionOutlet IDStructure Type 539.50537.50CulvertForwardRiserInlet Box 539.50536.00CulvertForwardSiphonOrifice-Circular 539.50531.00TWForwardCulvertCulvert-Circular 539.50538.50TWForwardWeirRectangular Weir (N/A)(N/A)TailwaterTailwater Settings 12/11/2020DWH-19010.ppc J. Mattingly, EIBelshire Subdivision Storm Event: 1 inchLabel: SCM A Return Event: 0 yearsSubsection: Outlet Input Data Structure ID: Culvert Structure Type: Culvert-Circular 1Number of Barrels in24.0Diameter ft50.00Length ft50.01Length (Computed Barrel) ft/ft0.020Slope (Computed) Outlet Control Data 0.013Manning's n 1.00Ke 0.01Kb 0.00Kr ft0.00Convergence Tolerance Inlet Control Data Form 1Equation Form 0.0098K 2.0000M 0.0398C 0.6700Y 0.00T1 ratio (HW/D) 1.29T2 ratio (HW/D) -1.00Slope Correction Factor Use unsubmerged inlet control 0 equation below T1 elevation. Use submerged inlet control 0 equation above T2 elevation In transition zone between unsubmerged and submerged inlet control, interpolate between flows at T1 & T2... ft531.00T1 Elevation ft³/s15.550T1 Flow ft533.57T2 Elevation ft³/s17.772T2 Flow 12/11/2020DWH-19010.ppc J. Mattingly, EIBelshire Subdivision Storm Event: 1 inchLabel: SCM A Return Event: 0 yearsSubsection: Outlet Input Data Structure ID: Riser Structure Type: Inlet Box 1Number of Openings ft537.50Elevation ft²16.000Orifice Area 1.00Orifice Coefficient ft16.00Weir Length (ft^0.5)/s3.00Weir Coefficient 1.00K Reverse 0.00Manning's n 0.00Kev, Charged Riser FalseWeir Submergence FalseOrifice H to crest Structure ID: Siphon Structure Type: Orifice-Circular 1Number of Openings ft536.00Elevation in2.3Orifice Diameter 1.00Orifice Coefficient Structure ID: Weir Structure Type: Rectangular Weir 1Number of Openings ft538.50Elevation ft20.00Weir Length (ft^0.5)/s3.00Weir Coefficient Structure ID: TW Structure Type: TW Setup, DS Channel Free OutfallTailwater Type Convergence Tolerances 30Maximum Iterations ft0.01Tailwater Tolerance (Minimum) ft0.50Tailwater Tolerance (Maximum) ft0.01Headwater Tolerance (Minimum) ft0.50Headwater Tolerance (Maximum) ft³/s0.001Flow Tolerance (Minimum) ft³/s10.000Flow Tolerance (Maximum) 12/11/2020DWH-19010.ppc J. Mattingly, EIBelshire Subdivision Storm Event: 1 inchLabel: SCM A (IN) Return Event: 0 yearsSubsection: Level Pool Pond Routing Summary Infiltration No InfiltrationInfiltration Method (Computed) Initial Conditions ft536.00Elevation (Water Surface, Initial) ft³0.000Volume (Initial) ft³/s0.000Flow (Initial Outlet) ft³/s0.000Flow (Initial Infiltration) ft³/s0.000Flow (Initial, Total) min0.50Time Increment Inflow/Outflow Hydrograph Summary ft³/s5.249Flow (Peak In) min187.00Time to Peak (Flow, In) ft³/s0.139Flow (Peak Outlet) min363.00Time to Peak (Flow, Outlet) ft536.49Elevation (Water Surface, Peak) ft³7,219.498Volume (Peak) Mass Balance (ft³) ft³0.000Volume (Initial) ft³8,468.000Volume (Total Inflow) ft³0.000Volume (Total Infiltration) ft³6,377.000Volume (Total Outlet Outflow) ft³1,957.000Volume (Retained) ft³-133.000Volume (Unrouted) %1.6Error (Mass Balance) 12/11/2020DWH-19010.ppc J. Mattingly, EIBelshire Subdivision Storm Event: 2 yearLabel: SCM A (IN) Return Event: 2 yearsSubsection: Level Pool Pond Routing Summary Infiltration No InfiltrationInfiltration Method (Computed) Initial Conditions ft536.00Elevation (Water Surface, Initial) ft³0.000Volume (Initial) ft³/s0.000Flow (Initial Outlet) ft³/s0.000Flow (Initial Infiltration) ft³/s0.000Flow (Initial, Total) min0.50Time Increment Inflow/Outflow Hydrograph Summary ft³/s31.578Flow (Peak In) min186.00Time to Peak (Flow, In) ft³/s5.456Flow (Peak Outlet) min208.00Time to Peak (Flow, Outlet) ft537.65Elevation (Water Surface, Peak) ft³26,748.161Volume (Peak) Mass Balance (ft³) ft³0.000Volume (Initial) ft³46,121.000Volume (Total Inflow) ft³0.000Volume (Total Infiltration) ft³35,814.000Volume (Total Outlet Outflow) ft³10,254.000Volume (Retained) ft³-52.000Volume (Unrouted) %0.1Error (Mass Balance) 12/11/2020DWH-19010.ppc J. Mattingly, EIBelshire Subdivision Storm Event: 25 yearLabel: SCM A (IN) Return Event: 25 yearsSubsection: Level Pool Pond Routing Summary Infiltration No InfiltrationInfiltration Method (Computed) Initial Conditions ft536.00Elevation (Water Surface, Initial) ft³0.000Volume (Initial) ft³/s0.000Flow (Initial Outlet) ft³/s0.000Flow (Initial Infiltration) ft³/s0.000Flow (Initial, Total) min0.50Time Increment Inflow/Outflow Hydrograph Summary ft³/s72.193Flow (Peak In) min186.00Time to Peak (Flow, In) ft³/s45.382Flow (Peak Outlet) min191.00Time to Peak (Flow, Outlet) ft538.64Elevation (Water Surface, Peak) ft³45,088.230Volume (Peak) Mass Balance (ft³) ft³0.000Volume (Initial) ft³124,943.000Volume (Total Inflow) ft³0.000Volume (Total Infiltration) ft³114,565.000Volume (Total Outlet Outflow) ft³10,325.000Volume (Retained) ft³-53.000Volume (Unrouted) %0.0Error (Mass Balance) 12/11/2020DWH-19010.ppc J. Mattingly, EIBelshire Subdivision Project Name:Encore at Streamside Date:12/11/2020 Project Number:DWH-19010 Calculated By:S. Woodard, PE Facility ID:SCM A INPUT DATA Inside Length =4.00 ft Inside Width =4.00 ft Wall Thickness =6.00 in Standard Base Length =5.00 ft Standard Base Width =5.00 ft Standard Base Thickness =6.00 in Inside Height of Riser =6.50 ft Concrete Unit Weight =142.00 pcf Unit weight of manhole concrete is 142 pcf per NC Products Outside Diameter of Barrel =30.00 in Drain Pipe (if present) =6.00 in TRASH RACK DISPLACEMENT Bottom Length / Width =7.00 ft Calculation for truncated square pyramid Top Length / Width =1.00 ft Height =2.00 ft Trash Rack Displacement =38.000 cf CONCRETE PRESENT IN RISER STRUCTURE Riser Walls =58.500 cf Standard Base of Riser =12.500 cf Less Opening for Barrel =2.454 cf Less Opening for Drain Pipe =0.098 cf Total Concrete Less Openings =68.447 cf Weight of Concrete =9,720 lbs AMOUNT OF WATER DISPLACED BY RISER STRUCTURE Displacement by Concrete =68.447 cf Displacement by Open Air =104.000 cf Displacement by Trash Rack =38.000 cf Total Water Displaced =210.447 cf Weight of Water Displaced =13,132 lbs RISER ANTI-FLOTATION CALCULATION AMOUNT OF CONCRETE TO ADD TO RISER STRUCTURE Safety Factor =1.15 Recommend 1.15 or higher Add'l Weight for Bouyancy =5,382 lbs Bouyant Weight of Concrete =79.60 pcf Bouyant Weight w/ SF =69.22 pcf Add'l Concrete to Add =77.757 cf Less Standard Base =12.500 cf New Base Design Required =90.257 cf ANTI FLOTATION BLOCK DESIGN CALCULATIONS AF Block Length =8.00 ft AF Block Width =8.00 ft AF Block Thickness =20.00 in AF Block Provided =106.667 cf Total Concrete Present =162.614 cf Total Concrete Present =23,091 lbs Project Name: Encore at Streamside Date: 12/11/2020 Project Number: DWH-19010 Calculated By: S. Woodard, PE Facility ID: SCM A DESIGN OF RIPRAP OUTLET PROTECTION Calculations based on NY DOT method - Pages 8.06.05 through 8.06.06 in NC Erosion Control Manual. Flow, Q10-yr =33.00 cfs Slope =2.04 % Pipe Diameter, Do =24 in =2.00 feet Number of pipes =1 Pipe separation =0.00 feet Manning's n =0.013 Zone from graph above =2 Outlet pipe diameter =24 in Length =12.00 ft Outlet flowrate =33.00 cfs Width =6.00 ft Outlet velocity =11.74 ft/sec Stone diameter =6.00 in Material =Class B Thickness =22.00 in Zone Material Diameter Thickness Length Width 1 Class A 3 9 4 x Do 3 x Do 2 Class B 6 22 6 x Do 3 x Do 3 Class I 13 22 8 x Do 3 x Do 4 Class I 13 22 8 x Do 3 x Do 5 Class II 23 27 10 x Do 3 x Do 6 Class II 23 27 10 x Do 3 x Do 7 Study Required RIPRAP OUTLET PROTECTION 11.74 ft/sec 0 5 10 15 20 25 0 1 2 3 4 5 6 7 8 9 10Velocity (ft/sec)Pipe diameter (ft) Figure 8.06.b.1 Zone 1 Zone 2 Zone 3 Zone 4 Zone 5 Zone 6 Zone 7 ENCORE AT STREAMSIDE DWH-19010 DESIGN OF STORMWATER CONTROL MEASURE B Encore at Streamside DWH-19010 STORMWATER CONTROL MEASURE SSFxn Above NP S. Woodard, PE 01/08/2020 STAGE-STORAGE FUNCTION - ABOVE NORMAL POOL Average Incremental Accumulated Estimated Contour Contour Contour Contour Stage Contour Stage Area Area Volume Volume w/ S-S Fxn (feet)(feet)(SF)(SF)(CF)(CF)(feet) 519.00 0.00 10,239 519.50 0.50 12,388 11314 5657 5657 0.51 520.00 1.00 13,063 12726 6363 12020 1.00 520.50 1.50 13,753 13408 6704 18724 1.48 521.00 2.00 14,456 14105 7052 25776 1.98 522.00 3.00 15,906 15181 15181 40957 2.99 523.00 4.00 17,412 16659 16659 57616 4.07 1.11366035 9.398757542 12073.37075 KS = 12073 b =1.1137 y = 12073x1.1137 R² = 0.9997 0 10000 20000 30000 40000 50000 60000 70000 0.00 1.00 2.00 3.00 4.00 5.00Storage (CF)Stage (feet) Storage vs. Stage Encore at Streamside DWH-19010 STORMWATER CONTROL MEASURE SSFxn Main Pool S. Woodard, PE 01/08/2020 STAGE-STORAGE FUNCTION - MAIN POOL Average Incremental Accumulated Estimated Contour Contour Contour Contour Stage Contour Stage Area Area Volume Volume w/ S-S Fxn (feet)(feet)(SF)(SF)(CF)(CF)(feet) 513.00 -1.00 3,031 514.00 0.00 3,528 516.00 2.00 4,622 4075 8150 8150 2.01 518.00 4.00 5,844 5233 10466 18616 3.96 518.50 4.50 6,171 6008 3004 21620 4.48 519.00 5.00 7,628 6900 3450 25070 5.06 *surface area and volume used for avg. depth calculation 1.214609062 8.160226809 3498.980115 KS = 3499 b =1.2146 Sediment Storage y = 3499x1.2146 R² = 0.9995 0 5000 10000 15000 20000 25000 30000 0.00 1.00 2.00 3.00 4.00 5.00 6.00Storage (CF)Stage (feet) Storage vs. Stage Encore at Streamside DWH-19010 STORMWATER CONTROL MEASURE SSFxn Forebay S. Woodard, PE 01/08/2020 STAGE-STORAGE FUNCTION - FOREBAY Average Incremental Accumulated Estimated Contour Contour Contour Contour Stage Contour Stage Area Area Volume Volume w/ S-S Fxn (feet)(feet)(SF)(SF)(CF)(CF)(feet) 514.00 -1.00 490 515.00 0.00 696 518.00 3.00 1,485 1091 3272 3272 3.01 518.50 3.50 1,641 1563 782 4053 3.48 519.00 4.00 2,248 1945 972 5025 4.02 1.489399615 6.451854431 633.876684 KS = 633.9 b =1.4894 Sediment Storage y = 633.88x1.4894 R² = 0.9982 0 1000 2000 3000 4000 5000 6000 0.00 1.00 2.00 3.00 4.00 5.00Storage (CF)Stage (feet) Storage vs. Stage Encore at Streamside DWH-19010 STORMWATER CONTROL MEASURE Volume Calculation S. Woodard, PE 01/08/2020 TOTAL VOLUME OF FACILITY Volume of Main Pool below Normal Pool=25,070 cf Volume of Forebay below Normal Pool=5,025 cf Total Volume Below Normal Pool =30,095 cf Total Volume Above Normal Pool=57,616 cf Total Volume of Facility =87,711 cf FOREBAY PERCENTAGE OF PERMANENT POOL VOLUME approximately 15-20% of the main pool volume. Total Main Pool Volume =25,070 cf Provided Forebay Volume =5,025 cf Provided Forebay Volume % =20% AVERAGE DEPTH OF MAIN POOL Main Pool Volume at Normal Pool =25,070 cf Main Pool Area at Normal Pool =7,628 sf Average Depth =3.29 ft Per NCDEQ Minimum Design Criteria, the forebay volume should equal Encore at Streamside DWH-19010 STORMWATER CONTROL MEASURE Surface Area Calculation S. Woodard, PE 01/08/2020 WET DETENTION BASIN SUMMARY Enter the drainage area characteristics ==> 9.95 acres 4.94 acres Note The basin must be sized to treat all impervious surface runoff draining into the pond, not just the impervious surface from on-site development. Drainage area =9.95 acres @ 49.7%impervious Estimate the surface area required at pond normal pool elevation ==> Wet Detention Basins are based on an minimum average depth of =3.29 feet (Calculated) 3.0 3.29 4.0 Lower Boundary =>40.0 1.51 1.24 Site % impervious =>49.7 1.78 1.70 1.50 Upper Boundary =>50.0 1.79 1.51 Therefore, SA/DA required =1.70 Surface area required for main pool at normal pool = 7,373 ft2 =0.17 acres Surface area provided for main pool at normal pool = 7,628 ft2 Total drainage area to pond = Total impervious area to pond = Encore at Streamside DWH-19010 STORMWATER CONTROL MEASURE WQV Calculation S. Woodard, PE 01/08/2020 DETERMINATION OF WATER QUALITY VOLUME WQ V = (P)(R V )(A)/12 where, WQV = water quality volume (in acre-ft) RV = 0.05+0.009(I) where I is percent impervious cover A = area in acres P = rainfall (in inches) Input data: Total area, A =9.95 acres Impervious area =4.94 acres Percent impervious cover, I =49.7 % Rainfall, P =1.00 inches Calculated values: RV = 0.50 WQV = 0.41 acre-ft =17957 cf. ASSOCIATED DEPTH IN POND WQV = 17957 cf. Stage / Storage Data: Ks =12073 b =1.114 Zo =519.00 Volume in 1" rainfall =17957 cf. Calculated values: Depth of WQv in Basin =1.43 ft =17.14 inches Elevation =520.43 ft Encore at Streamside DWH-19010 STORMWATER CONTROL MEASURE WQV Drawdown Calculation S. Woodard, PE 01/08/2020 DRAWDOWN ORIFICE DESIGN D orifice =2 inch # orifices =1 Ks =12073 b =1.1137 Cd orifice =0.60 Normal Pool Elevation =519.00 feet Volume @ Normal Pool =0 cf Orifice Invert =519.00 feet WSEL @ 1" Runoff Volume =520.43 feet WSEL Vol. Stored Orifice Flow Avg. Flow Incr. Vol.Incr. Time (feet)(cf)(cfs)(cfs)(cf)(sec) 520.43 17957 0.122 520.30 16219 0.116 0.119 1738 14636 520.18 14500 0.110 0.113 1719 15239 520.05 12802 0.103 0.107 1699 15941 519.93 11126 0.096 0.100 1676 16775 519.80 9476 0.089 0.093 1650 17791 519.68 7854 0.081 0.085 1621 19069 519.55 6266 0.072 0.077 1588 20752 519.43 4719 0.062 0.067 1547 23130 519.31 3222 0.049 0.056 1497 26917 519.18 1796 0.033 0.041 1427 34737 Drawdown Time =2.37 days Storm Event: 1 inchLabel: SCM B Return Event: 0 yearsSubsection: Elevation-Area Volume Curve Volume (Total) (ft³) Volume (ft³) A1+A2+sqr (A1*A2) (ft²) Area (ft²) Planimeter (ft²) Elevation (ft) 0.0000.0000.0010,239.000.000519.00 5,648.0005,648.00033,889.3612,388.000.000519.50 12,010.0006,362.00038,172.0213,063.000.000520.00 18,713.0006,703.00040,219.5613,753.000.000520.50 25,765.0007,052.00042,309.1214,456.000.000521.00 40,940.00015,175.00045,525.6815,906.000.000522.00 57,594.00016,653.00049,959.9717,412.000.000523.00 12/11/2020DWH-19010.ppc J. Mattingly, EIBelshire Subdivision Storm Event: 1 inchLabel: SCM B Return Event: 0 yearsSubsection: Outlet Input Data Requested Pond Water Surface Elevations ft519.00Minimum (Headwater) ft0.50Increment (Headwater) ft523.00Maximum (Headwater) Outlet Connectivity E2 (ft) E1 (ft) OutfallDirectionOutlet IDStructure Type 523.00520.80CulvertForwardRiserInlet Box 523.00519.00CulvertForwardSiphonOrifice-Circular 523.00514.00TWForwardCulvertCulvert-Circular 523.00521.60TWForwardWeirRectangular Weir (N/A)(N/A)TailwaterTailwater Settings 12/11/2020DWH-19010.ppc J. Mattingly, EIBelshire Subdivision Storm Event: 1 inchLabel: SCM B Return Event: 0 yearsSubsection: Outlet Input Data Structure ID: Culvert Structure Type: Culvert-Circular 1Number of Barrels in24.0Diameter ft100.00Length ft100.00Length (Computed Barrel) ft/ft0.010Slope (Computed) Outlet Control Data 0.013Manning's n 1.00Ke 0.01Kb 0.00Kr ft0.00Convergence Tolerance Inlet Control Data Form 1Equation Form 0.0098K 2.0000M 0.0398C 0.6700Y 1.15T1 ratio (HW/D) 1.30T2 ratio (HW/D) -1.00Slope Correction Factor Use unsubmerged inlet control 0 equation below T1 elevation. Use submerged inlet control 0 equation above T2 elevation In transition zone between unsubmerged and submerged inlet control, interpolate between flows at T1 & T2... ft516.30T1 Elevation ft³/s15.550T1 Flow ft516.59T2 Elevation ft³/s17.772T2 Flow 12/11/2020DWH-19010.ppc J. Mattingly, EIBelshire Subdivision Storm Event: 1 inchLabel: SCM B Return Event: 0 yearsSubsection: Outlet Input Data Structure ID: Riser Structure Type: Inlet Box 1Number of Openings ft520.80Elevation ft²16.000Orifice Area 1.00Orifice Coefficient ft16.00Weir Length (ft^0.5)/s3.00Weir Coefficient 1.00K Reverse 0.00Manning's n 0.00Kev, Charged Riser FalseWeir Submergence FalseOrifice H to crest Structure ID: Siphon Structure Type: Orifice-Circular 1Number of Openings ft519.00Elevation in2.0Orifice Diameter 1.00Orifice Coefficient Structure ID: Weir Structure Type: Rectangular Weir 1Number of Openings ft521.60Elevation ft20.00Weir Length (ft^0.5)/s3.00Weir Coefficient Structure ID: TW Structure Type: TW Setup, DS Channel Free OutfallTailwater Type Convergence Tolerances 30Maximum Iterations ft0.01Tailwater Tolerance (Minimum) ft0.50Tailwater Tolerance (Maximum) ft0.01Headwater Tolerance (Minimum) ft0.50Headwater Tolerance (Maximum) ft³/s0.001Flow Tolerance (Minimum) ft³/s10.000Flow Tolerance (Maximum) 12/11/2020DWH-19010.ppc J. Mattingly, EIBelshire Subdivision Storm Event: 1 inchLabel: SCM B (IN) Return Event: 0 yearsSubsection: Level Pool Pond Routing Summary Infiltration No InfiltrationInfiltration Method (Computed) Initial Conditions ft519.00Elevation (Water Surface, Initial) ft³0.000Volume (Initial) ft³/s0.000Flow (Initial Outlet) ft³/s0.000Flow (Initial Infiltration) ft³/s0.000Flow (Initial, Total) min0.50Time Increment Inflow/Outflow Hydrograph Summary ft³/s5.162Flow (Peak In) min186.50Time to Peak (Flow, In) ft³/s0.123Flow (Peak Outlet) min363.00Time to Peak (Flow, Outlet) ft519.60Elevation (Water Surface, Peak) ft³6,835.748Volume (Peak) Mass Balance (ft³) ft³0.000Volume (Initial) ft³8,033.000Volume (Total Inflow) ft³0.000Volume (Total Infiltration) ft³6,109.000Volume (Total Outlet Outflow) ft³1,802.000Volume (Retained) ft³-121.000Volume (Unrouted) %1.5Error (Mass Balance) 12/11/2020DWH-19010.ppc J. Mattingly, EIBelshire Subdivision Storm Event: 2 yearLabel: SCM B (IN) Return Event: 2 yearsSubsection: Level Pool Pond Routing Summary Infiltration No InfiltrationInfiltration Method (Computed) Initial Conditions ft519.00Elevation (Water Surface, Initial) ft³0.000Volume (Initial) ft³/s0.000Flow (Initial Outlet) ft³/s0.000Flow (Initial Infiltration) ft³/s0.000Flow (Initial, Total) min0.50Time Increment Inflow/Outflow Hydrograph Summary ft³/s27.982Flow (Peak In) min186.00Time to Peak (Flow, In) ft³/s3.992Flow (Peak Outlet) min212.50Time to Peak (Flow, Outlet) ft520.97Elevation (Water Surface, Peak) ft³25,400.262Volume (Peak) Mass Balance (ft³) ft³0.000Volume (Initial) ft³40,864.000Volume (Total Inflow) ft³0.000Volume (Total Infiltration) ft³30,296.000Volume (Total Outlet Outflow) ft³10,534.000Volume (Retained) ft³-34.000Volume (Unrouted) %0.1Error (Mass Balance) 12/11/2020DWH-19010.ppc J. Mattingly, EIBelshire Subdivision Storm Event: 25 yearLabel: SCM B (IN) Return Event: 25 yearsSubsection: Level Pool Pond Routing Summary Infiltration No InfiltrationInfiltration Method (Computed) Initial Conditions ft519.00Elevation (Water Surface, Initial) ft³0.000Volume (Initial) ft³/s0.000Flow (Initial Outlet) ft³/s0.000Flow (Initial Infiltration) ft³/s0.000Flow (Initial, Total) min0.50Time Increment Inflow/Outflow Hydrograph Summary ft³/s62.027Flow (Peak In) min186.00Time to Peak (Flow, In) ft³/s43.629Flow (Peak Outlet) min189.50Time to Peak (Flow, Outlet) ft521.81Elevation (Water Surface, Peak) ft³37,884.337Volume (Peak) Mass Balance (ft³) ft³0.000Volume (Initial) ft³107,938.000Volume (Total Inflow) ft³0.000Volume (Total Infiltration) ft³97,288.000Volume (Total Outlet Outflow) ft³10,617.000Volume (Retained) ft³-33.000Volume (Unrouted) %0.0Error (Mass Balance) 12/11/2020DWH-19010.ppc J. Mattingly, EIBelshire Subdivision Project Name:Encore at Streamside Date:12/11/2020 Project Number:DWH-19010 Calculated By:S. Woodard, PE Facility ID:SCM A INPUT DATA Inside Length =4.00 ft Inside Width =4.00 ft Wall Thickness =6.00 in Standard Base Length =5.00 ft Standard Base Width =5.00 ft Standard Base Thickness =6.00 in Inside Height of Riser =6.80 ft Concrete Unit Weight =142.00 pcf Unit weight of manhole concrete is 142 pcf per NC Products Outside Diameter of Barrel =30.00 in Drain Pipe (if present) =6.00 in TRASH RACK DISPLACEMENT Bottom Length / Width =7.00 ft Calculation for truncated square pyramid Top Length / Width =1.00 ft Height =2.00 ft Trash Rack Displacement =38.000 cf CONCRETE PRESENT IN RISER STRUCTURE Riser Walls =61.200 cf Standard Base of Riser =12.500 cf Less Opening for Barrel =2.454 cf Less Opening for Drain Pipe =0.098 cf Total Concrete Less Openings =71.147 cf Weight of Concrete =10,103 lbs AMOUNT OF WATER DISPLACED BY RISER STRUCTURE Displacement by Concrete =71.147 cf Displacement by Open Air =108.800 cf Displacement by Trash Rack =38.000 cf Total Water Displaced =217.947 cf Weight of Water Displaced =13,600 lbs RISER ANTI-FLOTATION CALCULATION AMOUNT OF CONCRETE TO ADD TO RISER STRUCTURE Safety Factor =1.15 Recommend 1.15 or higher Add'l Weight for Bouyancy =5,537 lbs Bouyant Weight of Concrete =79.60 pcf Bouyant Weight w/ SF =69.22 pcf Add'l Concrete to Add =79.994 cf Less Standard Base =12.500 cf New Base Design Required =92.494 cf ANTI FLOTATION BLOCK DESIGN CALCULATIONS AF Block Length =8.00 ft AF Block Width =8.00 ft AF Block Thickness =20.00 in AF Block Provided =106.667 cf Total Concrete Present =165.314 cf Total Concrete Present =23,475 lbs Project Name: Encore at Streamside Date: 12/11/2020 Project Number: DWH-19010 Calculated By: S. Woodard, PE Facility ID: SCM B DESIGN OF RIPRAP OUTLET PROTECTION Calculations based on NY DOT method - Pages 8.06.05 through 8.06.06 in NC Erosion Control Manual. Flow, Q10-yr =31.68 cfs Slope =1.00 % Pipe Diameter, Do =24 in =2.00 feet Number of pipes =1 Pipe separation =0.00 feet Manning's n =0.013 Zone from graph above =2 Outlet pipe diameter =24 in Length =12.00 ft Outlet flowrate =31.68 cfs Width =6.00 ft Outlet velocity =7.97 ft/sec Stone diameter =6.00 in Material =Class B Thickness =22.00 in Zone Material Diameter Thickness Length Width 1 Class A 3 9 4 x Do 3 x Do 2 Class B 6 22 6 x Do 3 x Do 3 Class I 13 22 8 x Do 3 x Do 4 Class I 13 22 8 x Do 3 x Do 5 Class II 23 27 10 x Do 3 x Do 6 Class II 23 27 10 x Do 3 x Do 7 Study Required RIPRAP OUTLET PROTECTION 7.97 ft/sec 0 5 10 15 20 25 0 1 2 3 4 5 6 7 8 9 10Velocity (ft/sec)Pipe diameter (ft) Figure 8.06.b.1 Zone 1 Zone 2 Zone 3 Zone 4 Zone 5 Zone 6 Zone 7 ENCORE AT STREAMSIDE DWH-19010 DESIGN OF STORMWATER CONTROL MEASURE C Encore at Streamside DWH-19010 STORMWATER CONTROL MEASURE SSFxn Above NP S. Woodard, PE 01/08/2020 STAGE-STORAGE FUNCTION - ABOVE NORMAL POOL Average Incremental Accumulated Estimated Contour Contour Contour Contour Stage Contour Stage Area Area Volume Volume w/ S-S Fxn (feet)(feet)(SF)(SF)(CF)(CF)(feet) 513.00 0.00 39,924 513.50 0.50 45,608 42766 21383 21383 0.50 514.00 1.00 47,344 46476 23238 44621 1.00 515.00 2.00 50,858 49101 49101 93722 1.98 516.00 3.00 54,428 52643 52643 146365 2.99 516.50 3.50 56,234 55331 27666 174031 3.51 517.00 4.00 58,055 57145 28572 202603 4.04 1.080082191 10.71120938 44855.85395 KS = 44856 b =1.0801 y = 44856x1.0801 R² = 0.9999 0 50000 100000 150000 200000 250000 0.00 1.00 2.00 3.00 4.00 5.00Storage (CF)Stage (feet) Storage vs. Stage Encore at Streamside DWH-19010 STORMWATER CONTROL MEASURE SSFxn Main Pool S. Woodard, PE 01/08/2020 STAGE-STORAGE FUNCTION - MAIN POOL Average Incremental Accumulated Estimated Contour Contour Contour Contour Stage Contour Stage Area Area Volume Volume w/ S-S Fxn (feet)(feet)(SF)(SF)(CF)(CF)(feet) 507.00 -1.00 17,303 508.00 0.00 18,926 509.00 1.00 20,580 19753 19753 19753 1.00 512.00 4.00 25,734 23157 69471 89224 3.96 512.50 4.50 26,668 26201 13101 102325 4.49 513.00 5.00 30,584 28626 14313 116638 5.06 *surface area and volume used for avg. depth calculation 1.096781818 9.889346774 19719.17465 KS = 19719 b =1.0968 Sediment Storage y = 19719x1.0968 R² = 0.9999 0 20000 40000 60000 80000 100000 120000 140000 0.00 1.00 2.00 3.00 4.00 5.00 6.00Storage (CF)Stage (feet) Storage vs. Stage Encore at Streamside DWH-19010 STORMWATER CONTROL MEASURE SSFxn Forebay S. Woodard, PE 01/08/2020 STAGE-STORAGE FUNCTION - FOREBAY Average Incremental Accumulated Estimated Contour Contour Contour Contour Stage Contour Stage Area Area Volume Volume w/ S-S Fxn (feet)(feet)(SF)(SF)(CF)(CF)(feet) 508.00 -1.00 3,288 509.00 0.00 3,953 512.00 3.00 6,294 5124 15371 15371 3.01 512.50 3.50 6,734 6514 3257 18628 3.48 513.00 4.00 8,520 7627 3814 22441 4.01 1.313721972 8.193661949 3617.946756 KS = 3617.9 b =1.3137 Sediment Storage y = 3617.9x1.3137 R² = 0.999 0 5000 10000 15000 20000 25000 0.00 1.00 2.00 3.00 4.00 5.00Storage (CF)Stage (feet) Storage vs. Stage Encore at Streamside DWH-19010 STORMWATER CONTROL MEASURE Volume Calculation S. Woodard, PE 01/08/2020 TOTAL VOLUME OF FACILITY Volume of Main Pool below Normal Pool=116,638 cf Volume of Forebay below Normal Pool=22,441 cf Total Volume Below Normal Pool =139,079 cf Total Volume Above Normal Pool=202,603 cf Total Volume of Facility =341,681 cf FOREBAY PERCENTAGE OF PERMANENT POOL VOLUME approximately 15-20% of the main pool volume. Total Main Pool Volume =116,638 cf Provided Forebay Volume =22,441 cf Provided Forebay Volume % =19% AVERAGE DEPTH OF MAIN POOL Main Pool Volume at Normal Pool =116,638 cf Main Pool Area at Normal Pool =30,584 sf Average Depth =3.81 ft Per NCDEQ Minimum Design Criteria, the forebay volume should equal Encore at Streamside DWH-19010 STORMWATER CONTROL MEASURE Surface Area Calculation S. Woodard, PE 01/08/2020 WET DETENTION BASIN SUMMARY Enter the drainage area characteristics ==> 39.08 acres 20.62 acres Note The basin must be sized to treat all impervious surface runoff draining into the pond, not just the impervious surface from on-site development. Drainage area =39.08 acres @ 52.8%impervious Estimate the surface area required at pond normal pool elevation ==> Wet Detention Basins are based on an minimum average depth of =3.81 feet (Calculated) 3.0 3.81 4.0 Lower Boundary =>50.0 1.79 1.51 Site % impervious =>52.8 1.87 1.64 1.58 Upper Boundary =>60.0 2.09 1.77 Therefore, SA/DA required =1.64 Surface area required for main pool at normal pool = 27,854 ft2 =0.64 acres Surface area provided for main pool at normal pool = 30,584 ft2 Total drainage area to pond = Total impervious area to pond = Encore at Streamside DWH-19010 STORMWATER CONTROL MEASURE WQV Calculation S. Woodard, PE 01/08/2020 DETERMINATION OF WATER QUALITY VOLUME WQ V = (P)(R V )(A)/12 where, WQV = water quality volume (in acre-ft) RV = 0.05+0.009(I) where I is percent impervious cover A = area in acres P = rainfall (in inches) Input data: Total area, A =39.08 acres Impervious area =20.62 acres Percent impervious cover, I =52.8 % Rainfall, P =1.00 inches Calculated values: RV = 0.52 WQV = 1.71 acre-ft =74467 cf. ASSOCIATED DEPTH IN POND WQV = 74467 cf. Stage / Storage Data: Ks =44856 b =1.080 Zo =513.00 Volume in 1" rainfall =74467 cf. Calculated values: Depth of WQv in Basin =1.60 ft =19.19 inches Elevation =514.60 ft Encore at Streamside DWH-19010 STORMWATER CONTROL MEASURE WQV Drawdown Calculation S. Woodard, PE 01/08/2020 DRAWDOWN ORIFICE DESIGN D orifice =4.75 inch # orifices =1 Ks =44856 b =1.0801 Cd orifice =0.60 Normal Pool Elevation =513.00 feet Volume @ Normal Pool =0 cf Orifice Invert =513.00 feet WSEL @ 1" Runoff Volume =514.60 feet WSEL Vol. Stored Orifice Flow Avg. Flow Incr. Vol.Incr. Time (feet)(cf)(cfs)(cfs)(cf)(sec) 514.60 74467 0.700 514.46 67403 0.664 0.682 7063 10354 514.32 60395 0.626 0.645 7009 10867 514.18 53446 0.585 0.605 6949 11477 514.04 46564 0.541 0.563 6882 12220 513.89 39756 0.494 0.517 6807 13155 513.75 33034 0.441 0.467 6722 14385 513.61 26413 0.381 0.411 6621 16114 513.47 19914 0.309 0.345 6499 18830 513.33 13571 0.202 0.255 6343 24830 513.19 7447 0.088 0.145 6124 42368 Drawdown Time =2.02 days Storm Event: 1 inchLabel: SCM C Return Event: 0 yearsSubsection: Elevation-Area Volume Curve Volume (Total) (ft³) Volume (ft³) A1+A2+sqr (A1*A2) (ft²) Area (ft²) Planimeter (ft²) Elevation (ft) 0.0000.0000.0039,924.000.000513.00 21,367.00021,367.000128,203.4645,608.000.000513.50 44,604.00023,237.000139,419.8947,344.000.000514.00 93,694.00049,091.000147,271.5550,858.000.000515.00 146,327.00052,633.000157,898.7354,428.000.000516.00 173,992.00027,664.000165,985.6356,234.000.000516.50 202,563.00028,571.000171,426.2558,055.000.000517.00 12/11/2020DWH-19010.ppc J. Mattingly, EIBelshire Subdivision Storm Event: 1 inchLabel: SCM C Return Event: 0 yearsSubsection: Outlet Input Data Requested Pond Water Surface Elevations ft513.00Minimum (Headwater) ft0.50Increment (Headwater) ft517.00Maximum (Headwater) Outlet Connectivity E2 (ft) E1 (ft) OutfallDirectionOutlet IDStructure Type 517.00514.70CulvertForwardRiserInlet Box 517.00513.00CulvertForwardSiphonOrifice-Circular 517.00511.00TWForwardCulvertCulvert-Circular 517.00516.00TWForwardWeirRectangular Weir (N/A)(N/A)TailwaterTailwater Settings 12/11/2020DWH-19010.ppc J. Mattingly, EIBelshire Subdivision Storm Event: 1 inchLabel: SCM C Return Event: 0 yearsSubsection: Outlet Input Data Structure ID: Culvert Structure Type: Culvert-Circular 1Number of Barrels in36.0Diameter ft50.00Length ft50.01Length (Computed Barrel) ft/ft0.020Slope (Computed) Outlet Control Data 0.013Manning's n 1.00Ke 0.01Kb 0.00Kr ft0.00Convergence Tolerance Inlet Control Data Form 1Equation Form 0.0098K 2.0000M 0.0398C 0.6700Y 1.14T1 ratio (HW/D) 1.29T2 ratio (HW/D) -1.00Slope Correction Factor Use unsubmerged inlet control 0 equation below T1 elevation. Use submerged inlet control 0 equation above T2 elevation In transition zone between unsubmerged and submerged inlet control, interpolate between flows at T1 & T2... ft514.42T1 Elevation ft³/s42.851T1 Flow ft514.86T2 Elevation ft³/s48.973T2 Flow 12/11/2020DWH-19010.ppc J. Mattingly, EIBelshire Subdivision Storm Event: 1 inchLabel: SCM C Return Event: 0 yearsSubsection: Outlet Input Data Structure ID: Riser Structure Type: Inlet Box 1Number of Openings ft514.70Elevation ft²25.000Orifice Area 1.00Orifice Coefficient ft20.00Weir Length (ft^0.5)/s3.00Weir Coefficient 1.00K Reverse 0.00Manning's n 0.00Kev, Charged Riser FalseWeir Submergence FalseOrifice H to crest Structure ID: Siphon Structure Type: Orifice-Circular 1Number of Openings ft513.00Elevation in4.8Orifice Diameter 1.00Orifice Coefficient Structure ID: Weir Structure Type: Rectangular Weir 1Number of Openings ft516.00Elevation ft60.00Weir Length (ft^0.5)/s3.00Weir Coefficient Structure ID: TW Structure Type: TW Setup, DS Channel Free OutfallTailwater Type Convergence Tolerances 30Maximum Iterations ft0.01Tailwater Tolerance (Minimum) ft0.50Tailwater Tolerance (Maximum) ft0.01Headwater Tolerance (Minimum) ft0.50Headwater Tolerance (Maximum) ft³/s0.001Flow Tolerance (Minimum) ft³/s10.000Flow Tolerance (Maximum) 12/11/2020DWH-19010.ppc J. Mattingly, EIBelshire Subdivision Storm Event: 1 inchLabel: SCM C (IN) Return Event: 0 yearsSubsection: Level Pool Pond Routing Summary Infiltration No InfiltrationInfiltration Method (Computed) Initial Conditions ft513.00Elevation (Water Surface, Initial) ft³0.000Volume (Initial) ft³/s0.000Flow (Initial Outlet) ft³/s0.000Flow (Initial Infiltration) ft³/s0.000Flow (Initial, Total) min0.50Time Increment Inflow/Outflow Hydrograph Summary ft³/s9.560Flow (Peak In) min187.50Time to Peak (Flow, In) ft³/s0.387Flow (Peak Outlet) min362.50Time to Peak (Flow, Outlet) ft513.36Elevation (Water Surface, Peak) ft³14,923.711Volume (Peak) Mass Balance (ft³) ft³0.000Volume (Initial) ft³18,569.000Volume (Total Inflow) ft³0.000Volume (Total Infiltration) ft³15,625.000Volume (Total Outlet Outflow) ft³2,774.000Volume (Retained) ft³-170.000Volume (Unrouted) %0.9Error (Mass Balance) 12/11/2020DWH-19010.ppc J. Mattingly, EIBelshire Subdivision Storm Event: 2 yearLabel: SCM C (IN) Return Event: 2 yearsSubsection: Level Pool Pond Routing Summary Infiltration No InfiltrationInfiltration Method (Computed) Initial Conditions ft513.00Elevation (Water Surface, Initial) ft³0.000Volume (Initial) ft³/s0.000Flow (Initial Outlet) ft³/s0.000Flow (Initial Infiltration) ft³/s0.000Flow (Initial, Total) min0.50Time Increment Inflow/Outflow Hydrograph Summary ft³/s86.251Flow (Peak In) min186.50Time to Peak (Flow, In) ft³/s6.799Flow (Peak Outlet) min241.50Time to Peak (Flow, Outlet) ft514.87Elevation (Water Surface, Peak) ft³87,001.853Volume (Peak) Mass Balance (ft³) ft³0.000Volume (Initial) ft³126,844.000Volume (Total Inflow) ft³0.000Volume (Total Infiltration) ft³104,313.000Volume (Total Outlet Outflow) ft³22,494.000Volume (Retained) ft³-37.000Volume (Unrouted) %0.0Error (Mass Balance) 12/11/2020DWH-19010.ppc J. Mattingly, EIBelshire Subdivision Storm Event: 25 yearLabel: SCM C (IN) Return Event: 25 yearsSubsection: Level Pool Pond Routing Summary Infiltration No InfiltrationInfiltration Method (Computed) Initial Conditions ft513.00Elevation (Water Surface, Initial) ft³0.000Volume (Initial) ft³/s0.000Flow (Initial Outlet) ft³/s0.000Flow (Initial Infiltration) ft³/s0.000Flow (Initial, Total) min0.50Time Increment Inflow/Outflow Hydrograph Summary ft³/s217.360Flow (Peak In) min186.00Time to Peak (Flow, In) ft³/s96.913Flow (Peak Outlet) min194.50Time to Peak (Flow, Outlet) ft516.29Elevation (Water Surface, Peak) ft³162,455.401Volume (Peak) Mass Balance (ft³) ft³0.000Volume (Initial) ft³371,541.000Volume (Total Inflow) ft³0.000Volume (Total Infiltration) ft³348,284.000Volume (Total Outlet Outflow) ft³23,207.000Volume (Retained) ft³-49.000Volume (Unrouted) %0.0Error (Mass Balance) 12/11/2020DWH-19010.ppc J. Mattingly, EIBelshire Subdivision Project Name:Encore at Streamside Date:12/11/2020 Project Number:DWH-19010 Calculated By:S. Woodard, PE Facility ID:SCM C INPUT DATA Inside Length =5.00 ft Inside Width =5.00 ft Wall Thickness =6.00 in Standard Base Length =6.00 ft Standard Base Width =6.00 ft Standard Base Thickness =6.00 in Inside Height of Riser =3.70 ft Concrete Unit Weight =142.00 pcf Unit weight of manhole concrete is 142 pcf per NC Products Outside Diameter of Barrel =36.00 in Drain Pipe (if present) =6.00 in TRASH RACK DISPLACEMENT Bottom Length / Width =8.00 ft Calculation for truncated square pyramid Top Length / Width =1.00 ft Height =2.00 ft Trash Rack Displacement =48.667 cf CONCRETE PRESENT IN RISER STRUCTURE Riser Walls =40.700 cf Standard Base of Riser =18.000 cf Less Opening for Barrel =3.534 cf Less Opening for Drain Pipe =0.098 cf Total Concrete Less Openings =55.068 cf Weight of Concrete =7,820 lbs AMOUNT OF WATER DISPLACED BY RISER STRUCTURE Displacement by Concrete =55.068 cf Displacement by Open Air =92.500 cf Displacement by Trash Rack =48.667 cf Total Water Displaced =196.234 cf Weight of Water Displaced =12,245 lbs RISER ANTI-FLOTATION CALCULATION AMOUNT OF CONCRETE TO ADD TO RISER STRUCTURE Safety Factor =1.15 Recommend 1.15 or higher Add'l Weight for Bouyancy =6,262 lbs Bouyant Weight of Concrete =79.60 pcf Bouyant Weight w/ SF =69.22 pcf Add'l Concrete to Add =90.471 cf Less Standard Base =18.000 cf New Base Design Required =108.471 cf ANTI FLOTATION BLOCK DESIGN CALCULATIONS AF Block Length =8.00 ft AF Block Width =8.00 ft AF Block Thickness =22.00 in AF Block Provided =117.333 cf Total Concrete Present =154.401 cf Total Concrete Present =21,925 lbs Project Name: Encore at Streamside Date: 12/11/2020 Project Number: DWH-19010 Calculated By: S. Woodard, PE Facility ID: SCM C DESIGN OF RIPRAP OUTLET PROTECTION Calculations based on NY DOT method - Pages 8.06.05 through 8.06.06 in NC Erosion Control Manual. Flow, Q10-yr =52.34 cfs Slope =2.00 % Pipe Diameter, Do =36 in =3.00 feet Number of pipes =1 Pipe separation =0.00 feet Manning's n =0.013 Zone from graph above =3 Outlet pipe diameter =36 in Length =24.00 ft Outlet flowrate =52.34 cfs Width =9.00 ft Outlet velocity =13.72 ft/sec Stone diameter =13.00 in Material =Class I Thickness =22.00 in Zone Material Diameter Thickness Length Width 1 Class A 3 9 4 x Do 3 x Do 2 Class B 6 22 6 x Do 3 x Do 3 Class I 13 22 8 x Do 3 x Do 4 Class I 13 22 8 x Do 3 x Do 5 Class II 23 27 10 x Do 3 x Do 6 Class II 23 27 10 x Do 3 x Do 7 Study Required RIPRAP OUTLET PROTECTION 13.72 ft/sec 0 5 10 15 20 25 0 1 2 3 4 5 6 7 8 9 10Velocity (ft/sec)Pipe diameter (ft) Figure 8.06.b.1 Zone 1 Zone 2 Zone 3 Zone 4 Zone 5 Zone 6 Zone 7