The URL can be used to link to this page

Home My WebLink AboutSW4210301_STORMWATER_CALCS_03042021_20210316 AEV PARKING EXPANSION J EFFERSON, NC H YDROLOGIC AND H YDRAULIC A NALYSIS R EPORT Prepared By: Prepared For: Project Site: BREC, P.A. Kenneth Osborne 150 Northwest Drive 1520 Meadowview Drive Jefferson, NC 28640 Wilkesboro, NC 28697 NCBELS Firm #C-3448 (336) 844-4088 Max@brec.biz 4 March 2021 Max Prestwood III, PE Project Engineer BREC, P.A. AEV PARKING EXPANSION 1 4 ¡«¤ ®¥ #®³¤³² 1.0 General Information ........................................................................................ 4 2.0 Methodology ................................................................................................... 4 2.1 Curve Number Calculations 4 2.2 Time of Concentration Calculations 5 2.3 Rainfall Data 6 2.4 Pipe Design 7 2.4.1 Outlet Design 7 2.5 Hydrology Calculations 8 2.6 Modified Curve Number Calculations 9 2.7 Sand Filter Design 10 2.7.1 Chamber and Filter Sizing 10 2.7.2 Underdrain Sizing 10 2.7.3 Anti-floatation Calculations 11 3.0 Results .......................................................................................................... 12 Appendix ............................................................................................................. 13 Post-Construction First Flush .............................................................................. 14 BREC, P.A. AEV PARKING EXPANSION 2 ,¨²³ ®¥ &¨¦´±¤² Figure 1 - System Storage of First Flush ............................................................ 12 ,¨²³ ®¥ 4 ¡«¤² Table 1 - Pre-Construction Drainage Area ............................................................ 4 Table 2 - Post-Construction Drainage Areas ........................................................ 5 Table 3 - Pre-Construction ToC ............................................................................ 6 Table 4 - Post-Construction ToC........................................................................... 6 Table 5 - NOAA Rainfall Depths ........................................................................... 6 Table 6 - NOAA Rainfall Intensity ......................................................................... 6 Table 7 - Composite Rational Coefficients ............................................................ 7 Table 8 - Pipe Design Summary ........................................................................... 7 Table 9 - Riprap Outlet Stone Sizing ..................................................................... 8 Table 10 - Riprap Apron Dimensions .................................................................... 8 Table 11 - Modified SCS Curve Numbers ............................................................. 9 Table 12 - Sand Filter State-Storage .................................................................. 10 Table 13 - Pipe Design Table ............................................................................. 13 BREC, P.A. AEV PARKING EXPANSION 3 ΐȁΏ '¤¤± « )¥®±¬ ³¨® This document contains hydrologic and hydraulic calculations demonstrating compliance with post-construction state and local stormwater regulations for the construction of a gravel parking area at the intersection of Northwest Dr. and Gates Ln. in Jefferson, NC. Specifically, regulations for this area require water quality treatment of the first flush storm. The subject tract is composed of a vacant field with managed turf cover. A pond and an unnamed tributary to Naked Creek are located on a portion of the Parcel. Buffer is shown from this feature. The majority of site is composed of BrD soils which are hydrologic soil group B. Remaining portion of the site is CfE and BuC soils which are also in hydrologic soil group B. Post construction stormwater requirements will be satisfied with an above ground sand filter which is approved by NCDEQ as a primary stormwater control measure (SCM). 2ȁΏ Methodology One pre-construction drainage area and eight post-construction drainage areas covering the subject tract and adjacent off-site areas were identified. See plan sheets for delineation. The pre-construction drainage area outlets at OUTFALL-1 located at an existing concrete drainage ditch at the southeast corner of the site. Drainage area POST-CON:8 was not routed to the sand filter due to topographic limitations. The remaining drainage areas covering all proposed impervious surfaces except for a small section of sidewalk in POST-CON:8 are routed to the sand filter for treatment prior to discharge at OUTFALL-1. Αȁΐ #´±µ¤ .´¬¡¤± # «¢´« ³¨®² Composite SCS curve numbers were calculated as weighted averages using values of 69 for fair grass coverage (pre-construction) and 61 for good grass coverage (post-construction, maintained), and 98 for impervious surfaces in HSG B soils. For pre-construction drainage areas, the composite curve number is calculated as: Table 1 - Pre-Construction Drainage Area Name (acres) (acres) (acres) (acres) PRE-CON:1 3.86 0.15 3.71 0.00 70.1 BREC, P.A. AEV PARKING EXPANSION 4 For post-construction drainage areas, the composite curve number is calculated as: Table 2 - Post-Construction Drainage Areas Name (acres) (acres) (acres) (acres) POST-CON:1+ 0.12 0.00 0.12 0.00 61.0 POST-CON:2+ 0.60 0.59 0.01 0.00 97.5 POST-CON:3+ 0.62 0.62 0.00 0.00 98.0 POST-CON:4+ 0.75 0.75 0.00 0.00 98.0 POST-CON:5+ 0.08 0.08 0.00 0.00 98.0 POST-CON:6+ 1.15 0.05 1.11 0.00 62.5 POST-CON:7+ 0.31 0.03 0.28 0.00 64.4 POST-CON:8 0.23 0.00 0.22 0.00 61.2 + Routed through sand filter prior to discharge. ΑȁΑ 4¨¬¤ ®¥ #®¢¤³± ³¨® # «¢´« ³¨®² Time of concentration values for vegetated drainage areas were evaluated using the segmental, lag, and FAA equations with a design value selected from the range produced by these equations. BREC, P.A. AEV PARKING EXPANSION 5 Table 3 - Pre-Construction ToC Name PRE-CON:1 577 0.079 4.3-20.6 10 Table 4 - Post-Construction ToC Name POST-CON:1 253.4 0.074 6.6-13.5 10 POST-CON:2 253.2 0.015 4.2-10.0 7 POST-CON:3 293.1 0.014 4.8-10.4 7 POST-CON:4 293.1 0.014 4.8-10.4 7 POST-CON:5 110.1 0.029 1.5-8.8 5 POST-CON:6 605.5 0.047 15.0-25.0 19 POST-CON:7 134.6 0.114 2.9-9.3 7 POST-CON:8 153.0 0.098 3.8-9.5 7 ΑȁΒ 2 ¨¥ «« $ ³ Rainfall data was taken from NOAA Atlas 14, Volume 2, Version 3 for Jefferson, NC. Rainfall depths for each design storm are summarized below. Table 5 - NOAA Rainfall Depths Storm First Flush 1.00 Table 6 - NOAA Rainfall Intensity Storm 10 Year, 5 Min 6.38 BREC, P.A. AEV PARKING EXPANSION 6 10 Year, 10 Min 5.11 ΑȁΓ 0¨¯¤ $¤²¨¦ A composite post-construction rational coefficient was also assigned to each post construction drainage area as needed for pipe design. The composite rational coefficients were calculated using individual coefficients of 0.85 for impervious surfaces, 0.08 for grass surfaces in HSG B soils. Table 7 - Composite Rational Coefficients Name POST-CON:1 0.19 0.12 POST-CON:2 0.84 2.95 POST-CON:3 0.85 3.09 POST-CON:4 0.85 3.76 POST-CON:5 0.86 0.43 POST-CON:6 0.16 0.73 POST-CON:7 0.25 0.46 POST-CON:8 0.19 0.26 equation iteratively for the normal depth. Table 8 - Pipe Design Summary NAME PIPE-1 15 0.13 2.0 PIPE-2 18 3.08 4.1 PIPE-3 24 6.17 5.0 PIPE-4 24 9.94 7.4 PIPE-5 15 0.73 3.7 PIPE-6 24 11.10 7.7 PIPE-7 24 11.56 11.4 See Appendix for complete pipe design table. ΑȁΓȁΐ /´³«¤³ $¤²¨¦ BREC, P.A. AEV PARKING EXPANSION 7 Outlet design for PIPE-4 and PIPE-5 was taken from Chapter 10 of HEC-14. Riprap was calculated as: Where, Substituting the corresponding pipe diameters and design discharges into the equation above yields: Table 9 - Riprap Outlet Stone Sizing NAME PIPE-6 ЋЍ ЊЊ͵ЊЉ ЊЊ͵АЉ ЊЍ A minimum of was chosen for each pipe which corresponds to NCDOT Class A stone. Given the design , the dimensions of the apron were 1 taken from Table 10.1 equations from HEC 14. Table 10 - Riprap Apron Dimensions NAME PIPE-6 ЋЍ ЊЋ Ћ͵Џ Џ͵Љ ЊЍ 2.5 (¸£±®«®¦¸ # «¢´« ³¨®² 1 http://www.fhwa.dot.gov/engineering/hydraulics/pubs/06086/hec14ch10.cfm BREC, P.A. AEV PARKING EXPANSION 8 The water quality volume required to be treated from the first flush was calculated using the Schueler method outlined in the NCDEQ Stormwater Design 2 Manual. The Schueler method utilizes the following equations: Where is the impervious fraction of the drainage area, is a runoff coefficient, is the rainfall depth, is the drainage area, and is the runoff volume. The following parameters are used for the drainage routed to the sand filter. 2.6 -®£¨¥¨¤£ #´±µ¤ .´¬¡¤± # «¢´« ³¨®² To route the through the sand filter, it is necessary to calculate a modified SCS curve number to avoid underrepresenting the first flush. The modified curve number is calculated as follows: The modified curve numbers were used to route the first flush using an SCS 6 hour balanced storm distribution. The remaining design storms were routed with standard curve numbers and an SCS type II 24 hour storm distribution. Table 11 - Modified SCS Curve Numbers Name POST-CON:1 0.05 77.22 POST-CON:2 0.94 99.45 POST-CON:3 0.95 99.57 POST-CON:4 0.95 99.57 POST-CON:5 0.95 99.57 POST-CON:6 0.09 80.21 POST-CON:7 0.13 83.00 POST-CON:8 0.05 77.63 2 https://deq.nc.gov/sw-bmp-manual BREC, P.A. AEV PARKING EXPANSION 9 2.7 3 £ &¨«³¤± $¤²¨¦ The combined area of the sediment chamber and sand chamber is determined from the relationship of the max water depth observed during the water quality event, , and the adjusted water quality volume. The design value for was chosen as . When coupled with the adjusted water quality volume, , the resulting stage storage for the sand filter is summarized below. Table 12 - Sand Filter State-Storage 0.0 2,989 1,922 0 0 0 1.0 2,990 2,516 1,110 1,110 2,219 2.0 2,991 3,182 2,534 2,534 5,068 3.0 2,992 3,920 4,310 4,310 8,619 At , . 2.7ȁΐ #§ ¬¡¤± £ &¨«³¤± 3¨¹¨¦ The sediment chamber and filter chamber are equally sized. The sediment chamber has an additional depression to assist with maintenance and primary sediment deposition; however, this added volume is not considered in calculations to meet minimum design criteria requirements. Given the filter chamber area, the sand media area, , was selected as . This value maximizes the available filter chamber area and preserves an easily installable geometric shape for the sand media while preventing the sand media from being installed adjacent to the toe of slope grading. Discharge through the sand media Where, 2.7.2 5£¤±£± ¨ 3¨¹¨¦ BREC, P.A. AEV PARKING EXPANSION 10 Drawdown time is calculated as: Discharge rate is calculated as: After applying a safety factor of 10, The diameter of a single pipe is calculated as: Where, Per Table 1 of Section A-5 of the NCDEQ Stormwater Design Manual, use (2) 6 inch pipes. 2.7.3 Anti-¥«® ³ ³¨® # «¢´« ³¨®² The outlet structure is a precast concrete box with side and bottom wall thicknesses. Including concrete and reinforcing steel, the structure has an empty mass of . Assuming the total height of the box is exposed to buoyant forces, the volume of water displaced by the box is calculated from the outside dimensions. BREC, P.A. AEV PARKING EXPANSION 11 The buoyant force is defined from the hydraulic forces acting on the box. No additional mass needed mass of structure is greater than the buoyant force. ΒȁΏ 2¤²´«³² The first flush storm is routed through the sand filter and reaches a max storage depth of which does not exceed the design . The water quality volume is discharged over a period of Figure 1 - System Storage of First Flush BREC, P.A. AEV PARKING EXPANSION 12 Ћ͵ЉЍ͵ЊЎ͵ЉА͵ЍЌ͵АА͵А ЊЊ͵Ѝ T/S) (F V DESIGN Љ͵ЊЌЌ͵ЉБЏ͵ЊАВ͵ВЍЉ͵АЌ ЊЊ͵ЊЉЊЊ͵ЎЏ (CFS) Q DESIGN Џ͵ЊА͵АА͵Љ 13 ЊА͵ЌЋЍ͵ЎЋЎ͵ЊЍЊ͵А (CFS) Q MAX ͵ЉЊЋ Љ͵ЉЊЋЉ͵ЉЊЋЉ͵ЉЊЋЉ͵ЉЊЋЉ͵ЉЊЋЉ͵ЉЊЋЉ n S Љ͵ЉЉБЉ͵ЉЉЎЉ͵ЉЉЎЉ͵ЉЊЉЉ͵ЉЊЉЉ͵ЉЊЊЉ͵ЉЋВ (FT/FT) Pipe Design Table LEN (FT) ВЉ͵ЉЉВЌ͵ЉЉЍА͵ЎВЎВ͵ЉЊ -ЊЊА͵ЉЉЊЊЋ͵ЎЊЊЊЋ͵ЎЊ 13 Table HGL ЋВВЋ͵ЋЋЋВВЋ͵ЊЉЋВВЊ͵ЍЏЋВВЉ͵ЎЋЋВВЌ͵ЌЍЋВБВ͵ВЌЋВБЏ͵ЉЊ DOWN INV ЋВВЋ͵ЊЉЋВВЊ͵ЍЍЋВВЉ͵ЏЌЋВБВ͵ЏЌЋВВЌ͵ЉАЋВБВ͵ЉЉЋВБЎ͵ЋВ DOWN Ћ AEV PARKING EXPANSION HGL UP ЋВВЌ͵ЊЋЋВВЋ͵ЏЊЋВВЋ͵ЉЋЋВВЊ͵ЍЋВВЍ͵ЋАЋВВЉ͵ЍЌЋВБА͵АЋ INV UP ЋВВЌ͵ЉЉЋВВЊ͵ВЎЋВВЊ͵ЊВЋВВЉ͵ЎЌЋВВЍ͵ЉЉЋВБВ͵ЎЉЋВБА͵ЉЉ ЊЎЊБЋЍЋЍЊЎЋЍЋЍ DIA (IN) .A. ЊЋЌЍЎЏА ΏΏΏΏΏΏΏ NAME tLt9tLt9tLt9tLt9tLt9tLt9tLt9 Appendix BREC, P Post-#®²³±´¢³¨® &¨±²³ &«´²h BREC, P.A. AEV PARKING EXPANSION 14 Project Description File Name ......................................................................AEV_1IN_6HR_SAND_FILTER_RAISED_BASIN.SPF Description ..................................................................... C:\\Users\\chase\\AppData\\Local\\Temp\\4900012020_C100_V2_1_22323_1c7d43c1.sv$ Project Options Flow Units ......................................................................CFS Elevation Type ...............................................................Elevation Hydrology Method ..........................................................SCS TR-55 Time of Concentration (TOC) Method ...........................User-Defined Link Routing Method ......................................................Hydrodynamic Enable Overflow Ponding at Nodes ...............................YES Skip Steady State Analysis Time Periods ......................YES Analysis Options Start Analysis On ...........................................................Feb 17, 202100:00:00 End Analysis On ............................................................Feb 19, 202111:00:00 Start Reporting On .........................................................Feb 17, 202100:00:00 Antecedent Dry Days .....................................................0days Runoff (Dry Weather) Time Step ...................................0 01:00:00 days hh:mm:ss Runoff (Wet Weather) Time Step ..................................0 00:05:00 days hh:mm:ss Reporting Time Step ......................................................0 00:00:05 days hh:mm:ss Routing Time Step .........................................................5seconds Number of Elements Qty Rain Gages ....................................................................1 Subbasins.......................................................................8 Nodes.............................................................................4 Junctions ...............................................................2 Outfalls ..................................................................1 Flow Diversions .....................................................0 Inlets ......................................................................0 Storage Nodes ......................................................1 Links...............................................................................6 Channels ...............................................................0 Pipes .....................................................................2 Pumps ...................................................................0 Orifices ..................................................................2 Weirs .....................................................................1 Outlets ...................................................................1 Pollutants .......................................................................0 Land Uses ......................................................................0 Rainfall Details SNRain GageDataData SourceRainfallRainStateCountyReturnRainfallRainfall IDSourceIDTypeUnitsPeriodDepthDistribution (years)(inches) 1JEFFERSONTime Series1IN-6HR-BALANCEDCumulativeinches0.00 Subbasin Summary SNSubbasinAreaPeak RateWeightedTotalTotalTotalPeakTime of IDFactorCurveRainfallRunoffRunoffRunoffConcentration NumberVolume (ac)(in)(in)(ac-in)(cfs)(days hh:mm:ss) 10.12484.0061.001.000.000.000.00 0 00:10:00 20.60484.0097.501.000.740.441.00 0 00:07:00 30.62484.0098.001.000.790.491.09 0 00:07:00 40.75484.0098.001.000.790.591.32 0 00:07:00 50.08484.0098.001.000.790.060.15 0 00:05:00 61.15484.0062.501.000.000.000.00 0 00:19:00 70.31484.0064.401.000.000.000.00 0 00:07:00 80.23484.0061.201.000.000.000.00 0 00:07:00 Node Summary SNElementElementInvertGround/RimInitialSurchargePondedPeakMax HGLMaxMinTime ofTotal IDTypeElevation(Max)WaterElevationAreaInflowElevationSurchargeFreeboardPeakFlooded ElevationElevationAttainedDepthAttainedFloodingVolume AttainedOccurrence (ft)(ft)(ft)(ft)(ft²)(cfs)(ft)(ft)(ft)(days hh:mm)(ac-in) 1SCM-RISERJunction2987.002993.002987.002993.0010.000.082987.070.005.930 00:000.00 2SITE-OUTLET(VIRTUAL)Junction2985.292991.292985.292991.290.000.082985.350.005.940 00:000.00 3EXISTING_CHANNELOutfall2980.000.082980.06 4SAND-FILTERStorage Node2989.002995.002989.000.003.552990.900.00 Total Time Flooded (min) 0.00 0.00 0.00 Subbasin Hydrology Subbasin : {Site 1}.POST-CON:1 Input Data Area (ac) .....................................................0.12 Peak Rate Factor ........................................484.00 Weighted Curve Number ............................61.00 Rain Gage ID ...............................................JEFFERSON Composite Curve Number AreaSoilCurve Soil/Surface Description(acres)GroupNumber -0.12-61.00 Composite Area & Weighted CN0.1261.00 Subbasin Runoff Results Total Rainfall (in) .........................................1.00 Total Runoff (in) ..........................................0.00 Peak Runoff (cfs) ........................................0.00 Weighted Curve Number ............................61.00 Time of Concentration (days hh:mm:ss) .....0 00:10:00 Subbasin : {Site 1}.POST-CON:1 Subbasin : {Site 1}.POST-CON:2 Input Data Area (ac) .....................................................0.60 Peak Rate Factor ........................................484.00 Weighted Curve Number ............................97.50 Rain Gage ID ...............................................JEFFERSON Composite Curve Number AreaSoilCurve Soil/Surface Description(acres)GroupNumber -0.60-97.50 Composite Area & Weighted CN0.6097.50 Subbasin Runoff Results Total Rainfall (in) .........................................1.00 Total Runoff (in) ..........................................0.74 Peak Runoff (cfs) ........................................1.00 Weighted Curve Number ............................97.50 Time of Concentration (days hh:mm:ss) .....0 00:07:00 Subbasin : {Site 1}.POST-CON:2 Subbasin : {Site 1}.POST-CON:3 Input Data Area (ac) .....................................................0.62 Peak Rate Factor ........................................484.00 Weighted Curve Number ............................98.00 Rain Gage ID ...............................................JEFFERSON Composite Curve Number AreaSoilCurve Soil/Surface Description(acres)GroupNumber -0.62-98.00 Composite Area & Weighted CN0.6298.00 Subbasin Runoff Results Total Rainfall (in) .........................................1.00 Total Runoff (in) ..........................................0.79 Peak Runoff (cfs) ........................................1.09 Weighted Curve Number ............................98.00 Time of Concentration (days hh:mm:ss) .....0 00:07:00 Subbasin : {Site 1}.POST-CON:3 Subbasin : {Site 1}.POST-CON:4 Input Data Area (ac) .....................................................0.75 Peak Rate Factor ........................................484.00 Weighted Curve Number ............................98.00 Rain Gage ID ...............................................JEFFERSON Composite Curve Number AreaSoilCurve Soil/Surface Description(acres)GroupNumber -0.75-98.00 Composite Area & Weighted CN0.7598.00 Subbasin Runoff Results Total Rainfall (in) .........................................1.00 Total Runoff (in) ..........................................0.79 Peak Runoff (cfs) ........................................1.32 Weighted Curve Number ............................98.00 Time of Concentration (days hh:mm:ss) .....0 00:07:00 Subbasin : {Site 1}.POST-CON:4 Subbasin : {Site 1}.POST-CON:5 Input Data Area (ac) .....................................................0.08 Peak Rate Factor ........................................484.00 Weighted Curve Number ............................98.00 Rain Gage ID ...............................................JEFFERSON Composite Curve Number AreaSoilCurve Soil/Surface Description(acres)GroupNumber -0.08-98.00 Composite Area & Weighted CN0.0898.00 Subbasin Runoff Results Total Rainfall (in) .........................................1.00 Total Runoff (in) ..........................................0.79 Peak Runoff (cfs) ........................................0.15 Weighted Curve Number ............................98.00 Time of Concentration (days hh:mm:ss) .....0 00:05:00 Subbasin : {Site 1}.POST-CON:5 Subbasin : {Site 1}.POST-CON:6 Input Data Area (ac) .....................................................1.15 Peak Rate Factor ........................................484.00 Weighted Curve Number ............................62.50 Rain Gage ID ...............................................JEFFERSON Composite Curve Number AreaSoilCurve Soil/Surface Description(acres)GroupNumber -1.15-62.50 Composite Area & Weighted CN1.1562.50 Subbasin Runoff Results Total Rainfall (in) .........................................1.00 Total Runoff (in) ..........................................0.00 Peak Runoff (cfs) ........................................0.00 Weighted Curve Number ............................62.50 Time of Concentration (days hh:mm:ss) .....0 00:19:00 Subbasin : {Site 1}.POST-CON:6 Subbasin : {Site 1}.POST-CON:7 Input Data Area (ac) .....................................................0.31 Peak Rate Factor ........................................484.00 Weighted Curve Number ............................64.40 Rain Gage ID ...............................................JEFFERSON Composite Curve Number AreaSoilCurve Soil/Surface Description(acres)GroupNumber -0.31-64.40 Composite Area & Weighted CN0.3164.40 Subbasin Runoff Results Total Rainfall (in) .........................................1.00 Total Runoff (in) ..........................................0.00 Peak Runoff (cfs) ........................................0.00 Weighted Curve Number ............................64.40 Time of Concentration (days hh:mm:ss) .....0 00:07:00 Subbasin : {Site 1}.POST-CON:7 Subbasin : {Site 1}.POST-CON:8 Input Data Area (ac) .....................................................0.23 Peak Rate Factor ........................................484.00 Weighted Curve Number ............................61.20 Rain Gage ID ...............................................JEFFERSON Composite Curve Number AreaSoilCurve Soil/Surface Description(acres)GroupNumber -0.23-61.20 Composite Area & Weighted CN0.2361.20 Subbasin Runoff Results Total Rainfall (in) .........................................1.00 Total Runoff (in) ..........................................0.00 Peak Runoff (cfs) ........................................0.00 Weighted Curve Number ............................61.20 Time of Concentration (days hh:mm:ss) .....0 00:07:00 Subbasin : {Site 1}.POST-CON:8 Junction Input SNElementInvertGround/RimGround/RimInitialInitialSurchargeSurchargePondedMinimum IDElevation(Max)(Max)WaterWaterElevationDepthAreaPipe ElevationOffsetElevationDepthCover (ft)(ft)(ft)(ft)(ft)(ft)(ft)(ft²)(in) 1SCM-RISER2987.002993.006.002987.000.002993.000.0010.000.00 2SITE-OUTLET(VIRTUAL)2985.292991.296.002985.290.002991.290.000.000.00 Junction Results SNElementPeakPeakMax HGLMax HGLMaxMinAverage HGLAverage HGLTime ofTime ofTotalTotal Time IDInflowLateralElevationDepthSurchargeFreeboardElevationDepthMax HGLPeakFloodedFlooded InflowAttainedAttainedDepthAttainedAttainedAttainedOccurrenceFloodingVolume AttainedOccurrence (cfs)(cfs)(ft)(ft)(ft)(ft)(ft)(ft)(days hh:mm)(days hh:mm)(ac-in)(min) 1SCM-RISER0.080.002987.070.070.005.932987.030.030 05:420 00:000.000.00 2SITE-OUTLET(VIRTUAL)0.080.002985.350.060.005.942985.320.030 05:430 00:000.000.00 Pipe Input SNElementLengthInletInletOutletOutletTotalAveragePipePipePipeManning'sEntranceExit/BendAdditional IDInvertInvertInvertInvertDropSlopeShapeDiameter orWidthRoughnessLossesLossesLosses ElevationOffsetElevationOffsetHeight (ft)(ft)(ft)(ft)(ft)(ft)(%)(in)(in) 1SCM-BARREL59.012987.000.002985.290.001.712.9000CIRCULAR24.00024.0000.01200.50000.50000.0000 2SITE-OUTLET-LINK(VIRTUAL)100.002985.290.002980.000.005.295.2900CIRCULAR24.00024.0000.01500.50000.50000.0000 InitialFlapNo. of FlowGateBarrels (cfs) 0.00No1 0.00No1 Pipe Results SNElementPeakTime ofDesign FlowPeak Flow/Peak FlowTravelPeak FlowPeak FlowTotal TimeFroudeReported IDFlowPeak FlowCapacityDesign FlowVelocityTimeDepthDepth/SurchargedNumberCondition OccurrenceRatioTotal Depth Ratio (cfs)(days hh:mm)(cfs)(ft/sec)(min)(ft)(min) 1SCM-BARREL0.080 05:4241.720.002.560.380.060.030.00Calculated 2SITE-OUTLET-LINK(VIRTUAL)0.080 05:4345.090.002.670.620.060.030.00Calculated Storage Nodes Storage Node : SAND-FILTER Input Data Invert Elevation (ft) ..................................................................................2989.00 Max (Rim) Elevation (ft) ..........................................................................2995.00 Max (Rim) Offset (ft) ...............................................................................6.00 Initial Water Elevation (ft) ........................................................................2989.00 Initial Water Depth (ft) .............................................................................0.00 Ponded Area (ft²) .....................................................................................0.00 Evaporation Loss .....................................................................................0.00 Storage Area Volume Curves Storage Curve : BASIN StageStorageStorage AreaVolume (ft)(ft²)(ft³) 019220.000 125162219.00 231825068.00 339208619.00 4473012944.00 5561218115.00 Storage Node : SAND-FILTER (continued) Outflow Weirs SNElementWeirFlapCrestCrestLengthWeir TotalDischarge IDTypeGateElevationOffsetHeightCoefficient (ft)(ft)(ft)(ft) 1EM-SPILLWAYTrapezoidalNo2993.504.5010.001.003.33 Outflow Orifices SNElementOrificeOrificeFlapCircularRectangularRectangularOrificeOrifice IDTypeShapeGateOrificeOrificeOrificeInvertCoefficient DiameterHeightWidthElevation (in)(in)(in)(ft) 1PRIMARY-OUTLETSideRectangularNo18.0014.002991.000.63 2SECONDARY-OUTLETBottomRectangularNo36.0036.002993.000.63 Output Summary Results Peak Inflow (cfs) ......................................................................................3.55 Peak Lateral Inflow (cfs) ..........................................................................3.55 Peak Outflow (cfs) ...................................................................................0.08 Peak Exfiltration Flow Rate (cfm) ............................................................0.00 Max HGL Elevation Attained (ft) ..............................................................2990.90 Max HGL Depth Attained (ft) ...................................................................1.9 Average HGL Elevation Attained (ft) .......................................................2989.47 Average HGL Depth Attained (ft) ............................................................0.47 Time of Max HGL Occurrence (days hh:mm) .........................................0 05:42 Total Exfiltration Volume (1000-ft³) .........................................................0.000 Total Flooded Volume (ac-in) ..................................................................0 Total Time Flooded (min) ........................................................................0 Total Retention Time (sec) ......................................................................0.00