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Home My WebLink AboutWPO202000053 Calculations 2021-10-01PLEASANT GREEN- PHASES II & III STORMWATER MANAGEMENT CALCULATIONS PACKET Date of Calculations NOVEMBER 30, 2020 Revised on JANUARAY 29, 2021 Revised on MARCH 24, 2021 t7 APPROVED SCOTT R. C LLINI' by the Albemarle County No. 35791 ate i�yOD/ g�e D�YnrlDepartment Date / R, 3/24/21 �4y File WP0202000053 PREPARED BY: C COL—LINS tivuii-LEERING 200 GARRETT STREET, SUITE K CHARLOTTESVILLE, VA 22902 434.293.3719 PH 434.293.2813 FX www.collins-engineering.com SCS TR-55 Calculations \ _ 7� I If 14� 1 ; : r Soils Table (Source: NRCS Web Soil Survey Online Database) Albemarle County, Virginia (VA003) Map Unb Map Unit Name Acres Percent of Symbol in AOI AOI 7B Braddock loam, 7.6 21.7% 2 to 7 percent slopes 8C3 Braddock clay 6.7 19.1% loam, 7 to 15 percent slopes, severely eroded 17 Craigsville 4.4 12.6% loam, 0 to 2 percent slopes, frequently Flooded 25B Dyke silt loam, 13.2 37.7% 2 to 7 percent slopes 36D Hayesville 2.7 7.8% loam, 15 to 25 percent slopes 37D3 Hayesville clay 0.4 1.1% loam, 15 to 25 percent slopes, severely eroded Totals for Area of 35.0 100.0% Interest The NRCS web soil survey defines this development's soils as predominantly having a hydrologic group type B. Precipitation Data (Source: NOAA's National Weather Service, Hydrometerorological Design Studies Center, Atlas 14 Point Precipitation Frequency Estimates) heap L1 Terrain C110 icy Oo a 04' a0 Grayrock Dr � 0a�° Pd a Braeburn Sr o '( n � Cady o` E > Jar,, G c t ns c4 Gap Rd 0 a a° ,. %n 0' a `ea Q uP� n c °.2 S od0, w a iC 9 e G. I4�e a 4, oa a Ne`7`o 15 Uo` Fc 5 WdYlanaa 0 n y` Crozet 0 0 e Windmere In 4S u° G dbq S(y V f r e ra ro o n,h 7oa sr v r 4 drF o,, Bo o y *a � Myrtle Sl �.�0..4km L�'nudwa - ero04 U.n pdrnddA. �'' � _ r. ml Park POINT PRECIPITATION FREQUENCY (PF) ESTIMATES WITH 90%CONFIDE14CE INTERVALS AND SUPPLEMENTARY INFORMATION NOAA Atlas 14, Volume 2, Version 3 l'DS-based precipitation frequency estimates with 90% confidence intervals (in inches)' Aver a mcvnerice i4erval ears) oea 24-0r 686 4. Q7 83•� (3.3fM.17) (4.275.31) (5.02-625) W10-7.W) (TOO8.82) p.971(9 0A) .014 .6) (105- 18) 11 (11757) �� so zo asZ �I LL e'I �I e'I o u i � c ¢ � N c m w L � m m z a a c � � m w u v L 0 u 0 c m ry w L 0 3 x m r n 0 w u � 2 c w o 'm = x u z a w — c o u m N o w u C c E w E o w u n z c w m 0 _ O u Z w Lu � z s 3 v a E z v t c o w u 0 'u c o m u` o y w j > CI -0Lib N tm0 Ifl Ifl 10 m m N N U II W � y a m E m 'w n m 3 m a v m .1 m n rn z o " u x U o W ' 'I Ol Of ei fV V N D tOO IIl I� O. I!f V �. b rl O. j a eel T VI eel N eel O O1 I� rl N eel V e'I N eel eel II1 N O N M M O m M N I!1 O N rl a 0 a m w .m 8i �-j .Ni r00i ti e in g vi ci m v S ¢` Q 'i4 m ry ri d m o ry ry ri vi G vi o ry ri c z m m .1 in m m .+ M m m �n u C o c u v vn c o c Z u n u E c 0 o a p O v N N T y L c a a o c U G c c c c c c c c c c c c w E c v a v a v a v a v a v a m e 0 c c a c c 0 c c 0 c c 0 c c 0 c c a � 0 m u u 0 m u u 0 m 0 u 0 m 0 u 0 m 0 u o m 0 u 01 a 0 m o m o a o a o a s ai Q 0 a¢ 0 0¢ 0 0¢ 0 0¢ 0 0¢ 0 0 « o 0 U' o U' a U' o 0 0 o c 5 0 c 5 0 c 5 o c c a c c 0 c c o v Z a 2 v Z v Z 0 Z 0 W a E 3 0o E 3 o E 3 o n 3 0 m o a 3 00 E33 33E 33 ES3E3 3E-9 m 0 4 o x Tv L y a n c an m m m m m m w n m� c 0 m 0 N w n m w u w 0 w m o u o 0 0 u ¢ a� a,; ¢;, O c v a a d a O 0 0 0 U.S. Department of Agriculture Natural Resources Conservation Service TR 55 Worksheet 3: Time of Concentration (TJ or Travel Time (T,) Project: Pleasant Green Phases II & III Location: West of McComb Street Check One: Present X Developed X Check One: T, X T, Segment ID: Sheet Flow: (Applicable to T, only) 1 Surface description (Table 3-1) 2 Manning's roughness coeff., n (Table 3-1 3 Flow length, L (total L < 100) (ft) 4 Two-year 24-hour rainfall, Pi (in.) 5 Land slope, s (ft/ft) 6 Compute Tr = [0.007(n*L)"a] / Pis s" Shallow Concentrated Flow Designed By: FGM, PE Checked By: SRC, PE Through subarea n/a FL-ENG-21A 06/04 Date: 11/30/2020 Date: 11/30/2020 DA B DA C DA D DA B DA C DA D (Pre-Dev.) (Pre-Dev.) (Pre-Dev.) (Post-Dev.) (Post-Dev.) (Post-Dev.) Dense Dense Woods -Light Dense Dense Dense Grass Grass Underbrush Grass Grass Grass 0.24 0.24 0.4 0.24 0.24 0.24 100 100 100 100 100 100 3.73 3.73 3.73 3.73 3.73 3.73 0.06 0.05 0.04 0.06 0.05 0.03 0.14 0.15 0.25 0.14 0.15 0.19 7 Surface description (paved or unpaved) Unpaved Unpaved Unpaved Unpaved Unpaved Unpaved 8 Flow Length, L (ft) 535 150 400 300 150 225 9 Watercourse slope, s (ft/ft) 0.07 0.03 0.08 0.07 0.03 0.05 10 Average velocity, V (Figure 3-1) (ft/s) 4.2 2.8 4.5 4.2 2.8 3.6 11 Tr=L/3600*V 0.04 0.01 0.02 0.02 0.01 0.02 Channel Flow: 12 Cross sectional flow area, a (ft) 13 Wetted perimeter, P. (ft) 14 Hydraulic radius, r = a/P* (ft) 15 Channel Slope, s (ft/ft) 16 Manning's Roughness Coeff, n 17V=[1.49r2"s"s]/n 18 Flow length, L (ft) 19 Tr= L / 3600*V 20 Watershed or subarea T, or Tr (Add T, in steps 6, 11 and 19) Note: The shoretest SCS Tc is 0.10 hrs. c c > c O 30 M O O N 4•_' LL> I11 d tf E QJ d 7 �. U LL O. LL 4L c W ry ), 6 j O LL C C UI c 7 c U! s m E of m u a 0'1 m Q °° -6r o u y x U y u Y X ut a a O > m O O j « o No 0 6 in LD a in in n o l7 a r c N N Q kD N W 1 C) Q n 0.06 1 10.02 0.03 0.02 0.18 10.22 10.27 1 0.18 1 0.19 10.23 L 6 _C )i« /\/}\\}\\ \e§§ \s§] \e \e5! \e!! \e f ! :, / L:r §� \ \ \ § ;; 2 KK 2 Channel and Flood Protection Computations 9 VAC 25-870-66 (Concentrated Outfall from Subarea B) Section B: Channel Protection "Concentrated stormwater flow shall be released into a stormwater conveyance system and shall meet the criteria in subdivision 1, 2 or 3 of this subsection..." Section B.1: Manmade stormwater conveyance systems "When stormwater from a development is discharged to a manmade stormwater conveyance system, following the land -disturbing activity, either..." a. or b. shall be met: Section B.1.b. "The peak discharge requirements for concentrated stormwater flow to natural stormwater conveyance systems in subdivision 3 of this subsection shall be met." Section B.3 "... the maximum peak flow rate from the one-year 24-hour storm following the land -disturbing activity shall be calculated either.." a. or b." Section B.3.a. In accordance with the following methodology: Q Allowed !� LF• * (Q Pre -Developed * [RV Pre -Developed I ) / (RV Developed ) Q Allowed Where: Q Pre -Developed = CN Pre -Developed = S Pre -Developed = RV Pre -Developed= CN Post -Developed= S Post -Developed = RV Post -Developed = I.F. _ Q Developed < 1.92 cfs Section B.4 Limits of Analysis 4.31 cfs (From Worksheet 4 Watershed Summary) 64 (From Worksheet 4 Watershed Summary) 5.60 (From SCS TR-55 eq. 2-4) 0.51 in. (From SCS TR-55 eq. 2-3) 73 (From Worksheet 4 Watershed Summary) 3.68 (From SCS TR-55 eq. 2-4) 0.92 in. (From SCS TR-55 eq. 2-3) 0.80 (Factor of Safety) 0.90 cfs The analysis terminates at the SWM facility since subsection B.3.a is met. 9 VAC 25-870-66 (Concentrated Outfall from Subarea B) Section C: Flood Protection "Concentrated stormwater flow shall be released into a stormwater conveyance system and shall meet one of the following criteria as demonstrated by use of acceptable hydrologic and hydraulic methodologies:" Section C.2.a.: The point of discharge (the SWM facility outfall), "Confines the postdevelopment peak flow rate from the 10-year 24-hour storm event within the stormwater conveyance system [the SWM facility] to avoid the localized flooding. Detention of stormwater or downstream improvements may be incorporated into the approved land -disturbing activity to meet this criterion...." 10-Year, 24-Hour Design Storm Peak Back Water Surface Elevation = 748.31 ft SWM Facility'B' Top of Dam Elevation = (No overtopping Occurs) 750.00 ft Section C.3 Limits of Analysis ....stormwater conveyance systems shall be analyzed for compliance with flood protection criteria to a point where:" a, b or c are met. Section C.3.c.: "The stormwater conveyance system [the SWM Facility outfall] enters a mapped floodplain or other flood -prone area, adopted by ordinance, of any locality." 9 VAC 25-870-66 (Concentrated Outfall from Subarea Q Section B: Channel Protection "Concentrated stormwater flow shall be released into a stormwater conveyance system and shall meet the criteria in subdivision 1, 2 or 3 of this subsection..." Section B.1: Manmade stormwater conveyance systems "When stormwater from a development is discharged to a manmade stormwater conveyance system, following the land -disturbing activity, either..." a. or b. shall be met: Section B.1.b. "The peak discharge requirements for concentrated stormwater flow to natural stormwater conveyance systems in subdivision 3 of this subsection shall be met." Section B.3 "... the maximum peak flow rate from the one-year 24-hour storm following the land -disturbing activity shall be calculated either.." a. or b." Section B.3.a. In accordance with the following methodology: Q Allowed !� LF• * (Q Pre -Developed * [RV Pre -Developed I ) / (RV Developed ) Q Allowed Where: Q Pre -Developed = CN Pre -Developed = S Pre -Developed = RV Pre -Developed= CN Post -Developed= S Post -Developed = RV Post -Developed = I.F. _ Q Developed < 1.41 cfs Section B.4 Limits of Analysis 3.86 cfs (From Worksheet 4 Watershed Summary) 63 (From Worksheet 4 Watershed Summary) 5.83 (From SCS TR-55 eq. 2-4) 0.48 in. (From SCS TR-55 eq. 2-3) 75 (From Worksheet 4 Watershed Summary) 3.25 (From SCS TR-55 eq. 2-4) 1.05 in. (From SCS TR-55 eq. 2-3) 0.80 (Factor of Safety) 1.40 cfs The analysis terminates at the SWM facility since subsection B.3.a is met. 9 VAC 25-870-66 (Concentrated Outfall from Subarea C) Section C: Flood Protection "Concentrated stormwater flow shall be released into a stormwater conveyance system and shall meet one of the following criteria as demonstrated by use of acceptable hydrologic and hydraulic methodologies:" Section C.2.a.: The point of discharge (the SWM facility outfall), "Confines the postdevelopment peak flow rate from the 10-year 24-hour storm event within the stormwater conveyance system [the SWM facility] to avoid the localized flooding. Detention of stormwater or downstream improvements may be incorporated into the approved land -disturbing activity to meet this criterion...." 10-Year, 24-Hour Design Storm Peak Back Water Surface Elevation = 729.98 ft SWM Facility'C' Crown of Pipe Elevation at High Point = 729.86 ft SWM Facility'C' Rim Elevation at Lowest Access MH / Weir Plate = 737.75 ft (No overtopping Occurs) Section C.3 Limits of Analysis ....stormwater conveyance systems shall be analyzed for compliance with flood protection criteria to a point where:" a, b or c are met. Section C.3.c.: "The stormwater conveyance system [the SWM Facility outfall] enters a mapped floodplain or other flood -prone area, adopted by ordinance, of any locality." 9 VAC 25-870-66 (Concentrated Outfall from Subarea D) Section B: Channel Protection "Concentrated stormwater flow shall be released into a stormwater conveyance system and shall meet the criteria in subdivision 1, 2 or 3 of this subsection..." Section B.1: Manmade stormwater conveyance systems "When stormwater from a development is discharged to a manmade stormwater conveyance system, following the land -disturbing activity, either..." a. or b. shall be met: Section B.1.b. "The peak discharge requirements for concentrated stormwater flow to natural stormwater conveyance systems in subdivision 3 of this subsection shall be met." Section B.3 "... the maximum peak flow rate from the one-year 24-hour storm following the land -disturbing activity shall be calculated either.." a. or b." Section B.3.a. In accordance with the following methodology: Q Allowed !� LF• * (Q Pre -Developed * [RV Pre -Developed I ) / (RV Developed ) Q Allowed Where: Q Pre -Developed = CN Pre -Developed = S Pre -Developed = RV Pre -Developed= CN Post -Developed= S Post -Developed = RV Post -Developed = I.F. _ Q Developed < 0.32 cfs Section B.4 Limits of Analysis 1.29 cfs (From Worksheet 4 Watershed Summary) 61 (From Worksheet 4 Watershed Summary) 6.53 (From SCS TR-55 eq. 2-4) 0.38 in. (From SCS TR-55 eq. 2-3) 79 (From Worksheet 4 Watershed Summary) 2.68 (From SCS TR-55 eq. 2-4) 1.25 in. (From SCS TR-55 eq. 2-3) 0.80 (Factor of Safety) 0.31 cfs The analysis terminates at the SWM facility since subsection B.3.a is met. 9 VAC 25-870-66 (Concentrated Outfall from Subarea D) Section C: Flood Protection "Concentrated stormwater flow shall be released into a stormwater conveyance system and shall meet one of the following criteria as demonstrated by use of acceptable hydrologic and hydraulic methodologies:" Section C.2.a.: The point of discharge (the SWM facility outfall), "Confines the postdevelopment peak flow rate from the 10-year 24-hour storm event within the stormwater conveyance system [the SWM facility & outfall pipe] to avoid the localized flooding. Detention of stormwater or downstream improvements may be incorporated into the approved land -disturbing activity to meet this criterion...." 10-Year, 24-Hour Design Storm Peak Back Water Surface 705.28 ft SWM Facility'D' Crown of Pipe Elevation at High Point = 705.87 ft SWM Facility'D' Rim Elevation at Lowest Access MH / Weir Plate 707.00 ft (No overtopping Occurs) Section C.3 Limits of Analysis ....stormwater conveyance systems shall be analyzed for compliance with flood protection criteria to a point where:" a, b or c are met. Section C.3.c.: "The stormwater conveyance system [the SWM Facility outfall] enters a mapped floodplain or other flood -prone area, adopted by ordinance, of any locality." Riprap Lined Level Spreader Calculations LEVELSPREADER'B' DESIGN Per VSMH Chpt. 11, Section 11.5.3: Step 1 Area = 7.97 ac. (Eqn 11.11) Tv= 12892 cf Q,= 0.45 watershed inches Adjusted CN = 84 Step 2 Tc = 0.18 hrs Step 3 la = 0.38 la/P= 0.38 q = 625 csm/in A = 0.012 mi Z q pTv = 3.5 cfs Note, q pTv is the Treatment Volume peak discharge, or the peak flow rate for the 1-inch rainfall event. Per the VA DEQ Specification #2, page 3, the Level Spreader should be designed per the following: LS length = 13 ft per 1 cfs 25%+/- Forest Litter/groundcover below tree canopy at a LS length of 40 ft per 1 cfs 75%+/- Native groundcover below tree canopy at a LS length of 13 ft per 1 cfs Site Specific / Weighted Average LS length = 19.8 ft LS'B' Design Length= 68 ft Note: Max. LS Length = 130 ft Min. LS Length = 13 ft LEVEL SPREADER 'C' DESIGN Per VSMH Chpt. 11, Section 11.5.3: Step 1 Area = 9.01 ac. (Eqn 11.11) Tv= 16152 cf Q,= 0.49 watershed inches Adjusted CN = 88 Step 2 Tc = 0.19 hrs Step 3 la = 0.27 la/P= 0.27 q = 675 csm/in A = 0.014 m i Z q PTv= 4.7 cfs Note, q PTvis the Treatment Volume peak discharge, or the peak flow rate for the 1-inch rainfall event. Per the VA DEQ Specification #2, page 3, the Level Spreader should be designed per the following: LS length = 13 ft per 1 cfs LS'C' Design Length= 61 ft Note: Max. LS Length = 130 ft Min. LS Length = 13 ft LEVEL SPREADER 'D' DESIGN Per VSMH Chpt. 11, Section 11.5.3: Step 1 Area = 4.79 ac. (Eqn 11.11) Tv= 9767 cf Q,= 0.56 watershed inches Adjusted CN = 96 Step 2 Tc = 0.23 hrs Step 3 la = 0.09 la/P= 0.09 q = 775 csm/in A= 0.007 mi' q PTV= 3.3 cfs Note, q pTvis the Treatment Volume peak discharge, or the peak flow rate for the 1-inch rainfall event. Per the VA DEQ Specification #2, page 3, the Level Spreader should be designed per the following: LS length = 13 ft per 1 cfs LS'D' Design Length= 42 ft Note: Max. LS Length = 130 ft Min. LS Length = 13 ft SWM Facility'B' Routing Calculations (Confirms the 1-year outflow is compliant with energy balance computations and the 10-year post -development storm is contained within the facility.) Pleasant Green- Phases II and III SWM Facility B BasinFlow printout INPUT: Basin: Pleasant Green- Phases II and III SWM Facility B 7 Contour Areas Elevation(ft) Area(sf) Computed Vol.(cy) 739.75 1.00 0.0 740.00 320.00 1.0 742.00 1188.00 53.5 744.00 2573.00 189.5 746.00 6576.00 517.0 748.00 10276.00 1136.1 750.00 14693.00 2056.0 Start—Elevation(ft) 4 Outlet Structures Outlet structure 0 Orifice 746.00 Vol.(cy) 517.00 name: Barrel area (sf) 3.142 diameter or depth (in) 24.000 width for rect. (in) 0.000 coefficient 0.500 invert (ft) 739.480 multiple 1 discharge out of riser Outlet structure 1 Orifice name: Low -Flow Orifice area (sf) 0.196 diameter or depth (in) 6.000 width for rect. (in) 0.000 coefficient 0.500 invert (ft) 746.000 multiple 1 discharge into riser Page 1 Pleasant Green- Phases II and III SWM Facility B Outlet structure 2 Weir name: Riser diameter (in) 48.000 side angle 0.000 coefficient 3.300 invert (ft) 747.670 multiple 1 discharge into riser transition at (ft) 1.215 orifice coef. 0.500 orifice area (sf) 12.566 Outlet structure 3 Weir name: Emergency Spillway length (ft) 30.000 side angle 0.000 coefficient 3.300 invert (ft) 748.670 multiple 1 discharge through dam 4 Inflow Hydrographs Hydrograph 0 SCS name: 1-yr 24-hr SCS Design Storm Area (acres) 7.970 CN 73.000 Type 2 rainfall, P (in) 3.090 time of conc. (hrs) 0.1800 time increment (hrs) 0.0200 time limit (hrs) 30.000 fudge factor 1.00 routed true peak flow (cfs) 8.119 peak time (hrs) 11.970 volume (cy) 977.568 Page 2 Pleasant Green- Phases II and III SWM Facility B Hydrograph 1 SCS name: 2-yr 24-hr SCS Design Storm Area (acres) 7.970 CN 73.000 Type 2 rainfall, P (in) 3.730 time of conc. (hrs) 0.1800 time increment (hrs) 0.0200 time limit (hrs) 30.000 fudge factor 1.00 routed true peak flow (cfs) 11.886 peak time (hrs) 11.970 volume (cy) 1431.046 Hydrograph 2 SCS name: 10-yr 24-hr SCS Design Storm Area (acres) 7.970 CN 73.000 Type 2 rainfall, P (in) 5.610 time of conc. (hrs) 0.1800 time increment (hrs) 0.0200 time limit (hrs) 30.000 fudge factor 1.00 routed true peak flow (cfs) 24.612 peak time (hrs) 11.970 volume (cy) 2963.281 Hydrograph 3 SCS name: 100-yr 24-hr SCS Design Storm Area (acres) 7.970 CN 73.000 Type 2 rainfall, P (in) 9.120 time of conc. (hrs) 0.1800 time increment (hrs) 0.0200 time limit (hrs) 30.000 fudge factor 1.00 routed true peak flow (cfs) 51.696 peak time (hrs) 11.970 volume (cy) 6224.170 Page 3 Pleasant Green- Phases II and III SWM Facility B OUTPUT: Routing Method: storage -indication Hydrograph 0 Routing Summary of inflow (cfs) discharge (cfs) water level (ft) storage (cy) Hydrograph 1 Routing Summary of inflow (cfs) discharge (cfs) water level (ft) storage (cy) Hydrograph 2 Routing Summary of inflow (cfs) discharge (cfs) water level (ft) storage (cy) Hydrograph 3 Routing Summary of inflow (cfs) discharge (cfs) water level (ft) storage (cy) Peaks: 1-yr 24-hr SCS Design Storm 8.119 at 11.96 (hrs) 0.897 at 12.38 (hrs) 747.549 at 12.44 (hrs) 971.910 Peaks: 2-yr 24-hr SCS Design Storm 11.886 at 11.96 (hrs) 5.211 at 12.12 (hrs) 747.887 at 12.12 (hrs) 1093.703 Peaks: 10-yr 24-hr SCS Design Storm 24.612 at 11.96 (hrs) 22.200 at 12.02 (hrs) 748.307 at 12.02 (hrs) 1256.359 Peaks: 100-yr 24-hr 51.695 at 46.508 at 748.887 at 1503.604 Fri ]an 15 19:42:49 EST 2021 SCS Design Storm 11.96 (hrs) 12.02 (hrs) 12.02 (hrs) Page 4 SWM Facility `C' Routing Calculations (Confirms the 1-year outflow is compliant with energy balance computations and the 10-year post -development storm is contained within the facility.) Pleasant Green- Phases II and III SWM Facility C BasinFlow printout INPUT: Basin: Pleasant Green- Phases II and III SWM Facility C 0 Contour Areas Elevation(ft) Area(sf) Computed Vol.(cy) 1 Storage Pipes Storage pipe 0 name: UGD System diameter (in) 120.000 length (ft) 250.000 invert (ft) 719.420 angle 0.287 volume (cy) 727.221 Start—Elevation(ft) 719.42 Vol.(cy) 0.00 5 Outlet Structures Outlet structure 0 Orifice name: Low -Flow Barrel, Str. C-101 area (sf) 1.767 diameter or depth (in) 18.000 width for rect. (in) 0.000 coefficient 0.500 invert (ft) 719.400 multiple 1 discharge out of riser Page 1 Pleasant Green- Phases II and III SWM Facility C Outlet structure 1 Orifice name: Low -Flow Orifice area (sf) 0.136 diameter or depth (in) 5.000 width for rect. (in) 0.000 coefficient 0.500 invert (ft) 719.420 multiple 1 discharge into riser Outlet structure 2 Orifice name: Overflow / Emergency Spillway in Weir Plate area (sf) 3.839 diameter or depth (in) 26.530 width for rect. (in) 0.000 coefficient 0.500 invert (ft) 725.920 multiple 1 discharge into riser Outlet structure 3 Weir name: Access Riser diameter (in) 48.000 side angle 0.000 coefficient 3.300 invert (ft) 737.750 multiple 1 discharge into riser transition at (ft) 1.215 orifice coef. 0.500 orifice area (sf) 12.566 Outlet structure 4 Orifice name: High Flow Bypass Barrel, Str. C-109 area (sf) 1.767 diameter or depth (in) 18.000 width for rect. (in) 0.000 coefficient 0.500 invert (ft) 725.920 multiple 1 discharge into riser Page 2 Pleasant Green- 3 Inflow Hydrographs Hydrograph 0 SCS Phases II and III SWM Facility C name: 1-yr 24-hr SCS Design Storm Area (acres) 9.010 CN 75.000 Type 2 rainfall, P (in) 3.090 time of conc. (hrs) 0.1900 time increment (hrs) 0.0200 time limit (hrs) 30.000 fudge factor 1.00 routed true peak flow (cfs) 10.126 peak time (hrs) 11.953 volume (cy) 1234.455 Hydrograph 1 SCS name: 2-yr 24-hr SCS Design Storm Area (acres) 9.010 CN 75.000 Type 2 rainfall, P (in) 3.730 time of conc. (hrs) 0.1900 time increment (hrs) 0.0200 time limit (hrs) 30.000 fudge factor 1.00 routed true peak flow (cfs) 14.562 peak time (hrs) 11.953 volume (cy) 1775.231 Hydrograph 2 SCS name: 10-yr 24-hr SCS Design Storm Area (acres) 9.010 CN 75.000 Type 2 rainfall, P (in) 5.610 time of conc. (hrs) 0.1900 time increment (hrs) 0.0200 time limit (hrs) 30.000 fudge factor 1.00 routed true peak flow (cfs) 29.307 peak time (hrs) 11.953 volume (cy) 3572.773 Page 3 Pleasant Green- Phases II and III SWM Facility C OUTPUT: Routing Method: storage -indication Hydrograph 0 Routing Summary of Peaks: 1-yr 24-hr SCS Design Storm inflow (cfs) 10.122 at 11.96 (hrs) discharge (cfs) 1.402 at 12.34 (hrs) water level (ft) 725.960 at 12.34 (hrs) storage (cy) 447.477 Hydrograph 1 Routing Summary of Peaks: 2-yr 24-hr SCS Design Storm inflow (cfs) 14.556 at 11.96 (hrs) discharge (cfs) 10.114 at 12.08 (hrs) water level (ft) 726.776 at 12.08 (hrs) storage (cy) 520.067 Hydrograph 2 Routing Summary of Peaks: 10-yr 24-hr SCS Design Storm inflow (cfs) 29.295 at 11.96 (hrs) discharge (cfs) 22.224 at 12.06 (hrs) water level (ft) 729.981 at 12.06 (hrs) storage (cy) 722.259 Mon Nov 30 09:40:03 EST 2020 Page 4 SWM Facility'D' Routing Calculations (Confirms the 1-year outflow is compliant with energy balance computations and the 10-year post -development storm is contained within the facility.) Pleasant Green- Phases II and III SWM Facility D BasinFlow printout INPUT: Basin: Pleasant Green- Phases II and III SWM Facility D 0 Contour Areas Elevation(ft) Area(sf) Computed Vol.(cy) 1 Storage Pipes Storage pipe 0 name: UGD System 'D' diameter (in) 120.000 length (ft) 177.750 invert (ft) 695.500 angle 0.287 volume (cy) 517.054 Start—Elevation(ft) 695.50 Vol.(cy) 0.00 5 Outlet Structures Outlet structure 0 Orifice name: Low -Flow Barrel area (sf) 1.227 diameter or depth (in) 15.000 width for rect. (in) 0.000 coefficient 0.500 invert (ft) 694.470 multiple 1 discharge out of riser Outlet structure 1 Orifice name: Low -Flow Orifice in Weir Plate area (sf) 0.028 diameter or depth (in) 2.250 width for rect. (in) 0.000 coefficient 0.500 invert (ft) 695.500 multiple 1 discharge into riser Page 1 Pleasant Green- Phases II and III SWM Facility D Outlet structure 2 Orifice name: Overflow / Emergency Spillway in Weir Plate area (sf) 2.796 diameter or depth (in) 22.640 width for rect. (in) 0.000 coefficient 0.500 invert (ft) 703.500 multiple 1 discharge into riser Outlet structure 3 Weir name: Access MH Below System diameter (in) 48.000 side angle 0.000 coefficient 3.300 invert (ft) 707.000 multiple 1 discharge into riser transition at (ft) 1.215 orifice coef. 0.500 orifice area (sf) 12.566 Outlet structure 4 Orifice name: High Flow Bypass Barrel area (sf) 1.767 diameter or depth (in) 18.000 width for rect. (in) 0.000 coefficient 0.500 invert (ft) 703.500 multiple 1 discharge into riser Page 2 Pleasant Green- 3 Inflow Hydrographs Hydrograph 0 SCS Phases II and III SWM Facility D name: 1-yr 24-hr SCS Design Storm Area (acres) 4.790 CN 79.000 Type 2 rainfall, P (in) 3.090 time of conc. (hrs) 0.2300 time increment (hrs) 0.0200 time limit (hrs) 30.000 fudge factor 1.00 routed true peak flow (cfs) 6.275 peak time (hrs) 11.991 volume (cy) 807.137 Hydrograph 1 SCS name: 2-yr 24-hr SCS Design Storm Area (acres) 4.790 CN 79.000 Type 2 rainfall, P (in) 3.730 time of conc. (hrs) 0.2300 time increment (hrs) 0.0200 time limit (hrs) 30.000 fudge factor 1.00 routed true peak flow (cfs) 8.735 peak time (hrs) 11.991 volume (cy) 1123.618 Hydrograph 2 SCS name: 10-yr 24-hr SCS Design Storm Area (acres) 4.790 CN 79.000 Type 2 rainfall, P (in) 5.610 time of conc. (hrs) 0.2300 time increment (hrs) 0.0200 time limit (hrs) 30.000 fudge factor 1.00 routed true peak flow (cfs) 16.671 peak time (hrs) 11.991 volume (cy) 2144.431 Page 3 Pleasant Green- Phases II and III SWM Facility D OUTPUT: Routing Method: storage -indication Hydrograph 0 Routing Summary of Peaks: 1-yr 24-hr SCS Design Storm inflow (cfs) 6.244 at 11.98 (hrs) discharge (cfs) 0.311 at 12.70 (hrs) water level (ft) 703.479 at 12.88 (hrs) storage (cy) 417.579 Hydrograph 1 Routing Summary of Peaks: 2-yr 24-hr SCS Design Storm inflow (cfs) 8.692 at 11.98 (hrs) discharge (cfs) 5.584 at 12.12 (hrs) water level (ft) 704.158 at 12.12 (hrs) storage (cy) 454.010 Hydrograph 2 Routing Summary of Peaks: 10-yr 24-hr SCS Design Storm inflow (cfs) 16.589 at 11.98 (hrs) discharge (cfs) 15.707 at 12.04 (hrs) water level (ft) 705.278 at 12.04 (hrs) storage (cy) 501.424 Fri Jan 29 10:26:17 EST 2021 Page 4 Riprap Lined Outlet Protection Calculations V91 - III £-SIT OWICI Fk �RMian G` d50 Riprap Size, feet SDS-v(lSfl :oijnoS p v O 9 Sur N � Z 0 o � 0 r Iv a � Y I' 7 F E -9 ^ 0 0 Iro op ti � T L a�^�.- 1110 W P P� s= u I A v -+ �y 1 r, pp Y b o � � NQ L U l+ jA -Cr -i v, r, ? J F C a w u rY i A � a r c rt - IL Q n µl a1 L o _ � n 1` Ia i Z Z j n� �/ ✓ w R Iu A J � a N � .a , n WE Z66I 59I - III "IT OTRIJ p i) -4 S %1A n S Z 0 N M N N n ~ 13 iS V" Vj A N t Z �c o _--' `N � wonNIHOO d50 Riprap Size, feet SOS-dQSfl :aamoS 0 M_ ti i L�> 0 FAI 8I'£ Z66I Water Quality Calculations for Pleasant Green, Using the DEQ Virginia Runoff Reduction Method for New Developments (Analysis #1- Includes Phases I, II & III) NOTEWORTHY WATER QUALITY ITEMS: 1. The following water quality analysis is for phases I, II and III. The boundary for the ESC limits of disturbance (for Approved Phase I and Proposed Phases II & III) was used for the VRRM boundary. The total limits of disturbance for analysis #1 is 32.50 acres. This is equal to approved phase 1 (13.15 acres onsite + 2.36 acres offsite) and proposed phases II & III (16.99 acres). A more detailed summary of the groundcovers and the removal rates follow this sheet. 2. The approved Phase I and the proposed Phases II & Ill result in a surplus in water quality credit. This credit will be applied to the Connector Road VSMP plan (WPO 201900027), making that plan's approval contingent upon the prior approval of this plan. Please note, a separate VSMP plan (Amendment #1 to WPO 201600069) is required prior to the approval of the Connector Road VSMP Plan (WPO 201900027) as well, however this proposed Phases II & III plan is not contingent upon the approval of Amendment #1 to WPO 201600069. 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The following water quality analysis is for phases I, 11, III and the Connector Road. The boundaryfor the ESC limits of disturbance (for Approved Phase I, Proposed Phases II & III and the Connector Road) was used for the VRRM boundary. The total limits of disturbance for analysis #2 is 34.49 acres. This is equal to approved phase 1 (13.15 acres onsite & 2.36 acres offsite), proposed phases II & III (16.99 acres) and the Connector Road (1.99 ac.) proposed under WPO 201900027. A more detailed summary of the groundcovers and the removal rates follow this sheet. 2. The approved Phase I (WPO 201900003) and the proposed Phases 11 & III result in a surplus in water quality credit, as seen in the following calculations. This credit will be applied to the Connector Road VSMP plan (WPO 201900027), making that plan's approval contingent upon the prior approval of this plan. 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E |)` �|E ! 2||| | )�) -9 k C; }§§§ /)| ! ci l I ml$'yC QlggS Z d E E q m W E C Y r g i in c` 9 ui E I V O y O pt q LN O O O o � y 0 u c G m c c d o C m m o o 8 d 8 o o 8 0 8 0 o 8? 0 0 o c C V q q p> p T V T V Q m 2 ry, L a 0 p L 0 0 c _ 6 V c N ¢ O � T Water Quality Calculations for Pleasant Green, Using the DEQ Virginia Runoff Reduction Method for New Developments (SWIM Forest & Open Space Easements) NOTEWORTHY WATER QUALITY ITEMS: 1. The following water quality calculations reflect the phosphorous removal rate credits associated with this plan's proposed Phases II & IIII SWM Forest & Open Space Easements. g 8 — 8 `o � 9 � s` 3 m 4 Y 2 � g �5 E S 9 EQ 3 m C Y QF O W 0' O s` W 8 ��-��° a vd x � C 9 � �Y o m � m o m � n W Y u W_ Q O p S pp O pp O p S 00 O O O O O o O O W OC Q W Q 0' O O O O O O O O O O O O O O O Y O W Q �• O O O O O O O O O O O O O �888SSY � g $ Qo' OOooco QQ•oS. 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