Loading...
The URL can be used to link to this page
Your browser does not support the video tag.
Home
My WebLink
About
SW4210701_Design Calculations (Wet Pond 1)_20211008
GUPTON'S ROYAL DESIGN GROUP MILE GRNEEx G o SrrE PLAN-NMG 0 STORN11VATEx DESIGN LAT DSC E DESIGN 0 N s=URk �G PO BOX 1070, KING, NC 27021 Office Phone (336) 98S — 6S19 Secondary Phone (336) 70S - 0633 KING'S CROSSSING Moore Road King, N.C. 27021 WET DETENTION BASIN # 1 CALCULATIONS 09/20/2021 Kinds Cross Properties, LLC P.O. Box 21029 Winston-Salem, N.C. 27120 336.414.3796 4 Q • w � 3 ''��� KING'S CROSSING Zoned CU-PUD, R-15 MOORE ROAD KING, N.C. 27021 36 deg. 16 min. 33 sec. N -80 deg. 20 min. 31 sec. W King's Crossing is a proposed large multi -use project situated on 149.68 acres located on Moore Road (S.R. 1122) in King, Stokes County, North Carolina. The existing site is mostly a previously timbered tract which subsequently grew up with misc. grassy/weed & brush. It was mowed with a bush chipper in late 2019. The current condition is a regrowth of grass, weeds & small brush. The soil on the site is a majority (40.3%) of Fairview -Poplar Forest, hydrologic group C, Clifford sandy clay loam (33.2%), hydrologic group B, Fairview -Poplar Forest (24.4%), hydrologic group B, and Fairview -Poplar Forest -Urban (2.1 %), hydrologic group B. The proposed developed site will consist of 123 single family lots, 65 townhome units, 23 commercial use units in two detached buildings, and 6 more commercial units attached to a 51,000 square foot commercial use building. There are also eight outparcel areas planned for development. The development is projected to have over 11,590 If of 27' back -back curb and gutter streets, 976 If of 54' wide parking areas, over 4,328 If of paved 8' wide multi -use pathways along with 5 ft. wide sidewalks along the streets. Moore Road will be widened from main entrance eastwardly along the property's frontage for approximately 1,030 If. The entire site is designed to be graded continuously in segments with each segment containing approximately 25 +/- Acres where Cut & Fill areas are approximately balanced and further defined by natural features such as Roads & Streams. The runoff from the buildings will be piped to the storm drainage system as can be constructed with the other areas graded to the parking areas. The parking areas runoff will be collected by inlets and piped to the proposed storm water detention ponds. The detention ponds are designed to retain the "first flush" 1 year 24 hour 1-inch storm and the 2, 10, and 25 year storm events with release rates lower than the pre -construction release rates. Because of these low flow rates the downstream water courses and channels will not receive increased flows from the site and ponds. Also for the same reasons the ponds outlet pipe flows will exit over an energy dissipater and level filter area before entering the receiving water course. A segmented or phased development approach will began with Section 1 (commercial areas North of Kingscote Way) and Section 2 (commercial and townhome areas) South of Kingscote Way. Then Section 3 (amenities area) will be constructed. All 3 Sections will be 80% stabilized prior to beginning any work on the remaining Section 4 (single family lots). Street design has been utilized to minimize stream crossings, provide construction access to various segments and be utilized for connectivity and economy in land use. There is an existing sediment basin/stormwater structure left over from previous development that shall be repaired and reconfigured for use with this planned development delineated by Pilot Environmental, Inc. whose report has been included with submitted documents. Stream CL's, Top Banks and Delineated Wetland areas have been located by Field Survey by GRDG. 401/404 permits will also be obtained by Pilot Environmental, Inc. and will be made available when completed. All stream buffers and wetlands will be visibly marked with orange protection fencing per plan details. Permanent basins that are to be used as storm water ponds have been slightly over sized to help control storm water flows as sites are developed. They have all been design to store and release storm water at pre -developed flows for major storms including the 100 year storm thus reducing any downstream impacts. 2 Table of Contents Ding's Crossing Project Introduction and Overview ................ ................ 1-2 Site Conditions and Input Data ...... .......... ......... 3 SCS Curve Number (CN) Computations. . ................. ........ 4 IDF Table Computed for King, N.0 ...... .................... ... 5 NOAA Point Precipitation Frequency Estimates (inches/hour) ............. 6-8 NOAA Point Precipitation Frequency Estimates (inches) . .............. 9-11 Computed Design Data — I -Yr Water Quality & 25-Yr Water Quantity ........12 Permanent Basin Design — Computed Storage & Water Quality Drawdown ... 13 Site Soils Map and Data ...................................... 14-17 HydraFlow Watershed Model Schematic .............................. 18 Hydrograph Report— Pre -developed 1-Year . ........... ........... 19 Hydrograph Report— Post -developed 1 -Year .......................... 20 Hydrograph Report — Routed Pond 1-Year ............................ 21 Hydrograph Report — Pre -developed 2-Year ........................... 22 Hydrograph Report — Post -developed 2-Year .......................... 23 Hydrograph Report — Routed Pond 2-Year . . . ...... ......... _ 24 Hydrograph Report — Pre -developed 1 0-Year . ....... .......... 25 Hydrograph Report — Post -developed 10-Year . . ...... ............... 26 Hydrograph Report — Routed Pond 1 0-Year ..... ........ . . . . - ... 27 Hydrograph Report — Pre -developed 25-Year .......................... 28 Hydrograph Report — Post -developed 25-Year ......................... 29 Hydrograph Report — Routed Pond 25-Year ..................... . .. .. . 30 Hydrograph Report — Pre -developed 100-Year ..................... . . _ 31 Hydrograph Report — Post -developed I 00-Year ............ ......... . .. 32 Hydrograph Report — Routed Pond 100-Year ........................... 33 Pond Report — Otago I Discharge ..... ............. ...... . . .. 34 Pond Report — Stage / Storage ......... .................. ...... _ 35 Table of Contents - Continued Pond Outlet Structure Schematic — Front View ......................... 36 Pond Outlet Structure Schematic — Section View ........ . .............. 37 GUPTON'S ROYAL DESIGN GROUP, PA P.O. BOX 1070 KING, N.C. 27021 KING'S CROSSING STORMWATER MANAGEMENT WET DETENTION STRUCTURE SITE CONDITIONS AND INPUT DATA BASIN 1# SITE DATA Total Site Area: 149.68 Acres Total Disturbed Area: 9.64 Acres Total Drainage Area Into Structure: 9.64 Acres Proposed BUA/Impervious Area: 6.11 Acres Drainage Area Proposed BUA/Impervious Area %: 63.4 % Off -Site Drainage Area: 0.00 Acres Off -Site BUA/Impervious Area: 0.00 Acres Total BUA/Impervious Area Into Structure: 6.11 Acres Total BUA/Impervious Area Into Structure %: 63.4 % Design Data Pre -Developed: Overland Flow Runoff Factor Factor Hydraulic Length: 1372.8 Feet Hydraulic Height: 48 Feet Time of Concentration, Te (Pre -developed) : 14.81 Min. Post -Developed: Overland Flow Runoff Factor Factor Hydraulic Length: 1503.33 Feet Hydraulic Height: 28 Feet Time of Concentration, Tc (Post -developed) : 10.12 Min. *Note: Times of concentration are calculated using Kirpich Method. Use minimum 5 minute Tc. SCS Weighted Curve Number (Pre -developed): 67 CN SCS Weighted Curve Number (Post -developed): 84 CN Precipitation Depth, 1 yr. 24 hr. Storm: **See table 2.92 Inches Precipitation Depth, 2 yr. 6 hr. Storm: **See table 2.44 Inches Precipitation Depth, 10 yr. 6 hr. Storm: **See table 3.67 Inches Precipitation Depth, 25 yr. 6 hr. Storm: **See table 4.26 Inches GUPTON's ROYAL DESIGN GROUP P.O. BOX 1070 KING, N.C. 27021 KING'S CROSSING STORMWATER MANAGEMENT WET DETENTION STRUCTURE SITE CONDITIONS AND INPUT DATA BASIN 1# Pre -Developed SCS Runoff Curve Number (CN) Soil Group Descrpttonry v CN Area (acres) Product of CN x Area B Brush -Weeds -Grasses 645.88 0 0 0 0 0 0 I otals 9.64 645.88 Weighted SCS Curve Number (CN) = Post -Developed SCS Runoff Curve Number (CN) 67.00 Soil Group Raescrption CN 98 Area, acres 4.12 Product of ' CN x Area B Pavement 404.215 B Sidewalks 98 0.53 51.853 B Driveways 98 0.00 0.000 B Grassed Areas 61 3.52 214.926 B Buildings 98 1.46 142.920 0 0 0.000 0 0 0.000 0 0.000 i otais 9F.-'W, 813.91 Weighted SCS Curve Number (CN) = 84.47 *See table 8.03e *Reference made to "Erosion and Sediment Control Planning and Design Manual" State of N.C. 4 Depth -Duration -Frequency Table King, Stokes County NC Return Period Duration 1-yr 2-yr 5-yr 10-yr 25-yr 50-yr 100-yr (in.) (in.) (in.) (in.) (in.) (in.) (in. 5min 0.37 0.44 0.52 0.58 0.64 0.69 0.73 10 min 0.59 0.70 0.83 0.92 1.02 1.10 1.16 15 min 0.74 0.88 1.05 1.16 1.30 1.39 1.47 30 min 1.01 1.22 1.49 1.68 1.92 2.09 2.25 60min 1.26 1.53 1.91 2.19 2.56 2.83 3.10 2 hr 1.50 1.82 2.30 2.66 3.14 3.52 3.91 3 hr 1.62 1.97 2.49 2.88 3.41 3.83 4.26 6 hr 2.00 2.42 3.05 3.55 4.23 4.79 5.36 12 hr 2.43 2.95 3.72 4.35 5.23 5.96 6.73 24 hr 2.90 3.51 4.45 5.22 6.32 7.23 8.21 Intensity -Duration -Frequency Table King, Stokes County NC Return Period Duration 1-yr 2-yr 5-yr 10-yr 25-yr 50-yr 100-yr (in/hr) (in/hr) (in/hr) (in/hr) (in/hr) (in/hr) (in/hr) 5min 4.43 5.27 6.22 6.90 7.70 8.26 8.77 10 min 3.53 4.21 4.98 5.51 6.13 6.58 6.97 15 min 2.94 3.53 4.20 4.65 5.18 5.55 5.88 30min 2.02 2.44 2.98 3.37 3.84 4.18 4.50 60min 1.26 1.53 1.91 2.19 2.56 2.83 3.10 2 hr 0.75 0.91 1.15 1.33 1.57 1.76 1.95 3 hr 0.54 0.66 0.83 0.96 1.14 1.28 1.42 6 hr 0.33 0.40 0.51 0.59 0.71 0.80 0.90 12 hr 0.20 0.25 0.31 0.36 0.43 0.49 0.56 24 hr 0.12 0.15 0.19 0.22 0.26 0.30 0.34 Reference Data Precipitation Frequency Data Server ht(ps://hdsc.nws.noaa.gov/hdse/pfds/pfds_printpage.html?lat=36.2759&... NOAA Atlas 14, Volume 2, Version 3 Location name: King, North Carolina, USA*°"�' Latitude: 36.2759°, Longitude:-80.34210 Elevation:1096.96 ft** £ "seurce: ESRI Maps " source: uSGs POINT PRECIPITATION FREQUENCY ESTIMATES G.M Bonnin, D. Martin, B. Lin, T. Parzybok, MYekta, and 0. Riley NOAA, National Weather Service, Silver Spring, Maryland PF tabular I PP graphical f Maol& aerials PF tabular PDS-based point precipitation frequency estimates with 90% confidence intervals {in inches)1 i Average Duration) recurrence interval (years) ��� 1 10 25 50 10D 200 500 F 1o6o 0.643 0.689 0.732 0.772 0.819 0.852 5 min r 0.369 a.440 0. iii 0.576 1(0.341-0.401) (0.406-0.479 ) (0.479-0.-W) (0.530-0.626 {0.588-0.699) (0.626-0.750 (0.661-0.799),(0.692-0.845 ( 0.724-0.900) (0746-0.942 a.590 0.703 0.832 i 0.921 1.02 1.10 1.16 1.22 1.30 1.34 C�10-min (0.545 0.640} (0.650 0.767) (0.767-0.906)i (0.848 1.00} (0.937-1.11} {0.998-1.20} (1.05 1.27} (1.10-1.34i (1.15-1.42j {1.18 1:48} 0.737 0.884 1.05 1.16 1.30 1.39 1.47 1.54F 1. 33 1.69 45-mtn {0.681-0.800)I (0.817-0.964) (0.971-1.15) I (1.07-1.27) (1.19-1.49) (1.26-1.51) {133 1.60i {1.38-1.69) (1.44-139) 30-min 1.01 (0.934-1.10) { 1.22 {1.13-1.33} 1.50 1.69 (138-1.63) {1.55-1.83) 1.92 (1.76 2.09} 2.09 (1.90-2.28j 2.25 (2.03-2.46) 2.aa (2.15-2.63j 2.59 2.73 (2.29 2.85) (239-3.01) 6a-ruin 1.26 1.53 1.92 2 2a 11 2 56 2.84 3.10 3.3T 3.72 3.98 (1.16-1.37) (1.42-1.67) (1.77-2.09) (2.02 239j 234-2.79) 1 (2.58-3.09) {2.80-3.38) j{3.02-3.69)1 (3.29-4.09) {3.49 4.40j 2-hr 1 1.50 (9.38 1.64} 1,83 ; (1.68 2.00) 2.31 2.67 (2.12-2.53) (2.44 2.92} 3.15 (2.86-3.45) 3.54 (3.19-3.87) 3.92 (3.50 4.30) 4.31 (3.82 4.74j a.8a i 5.26 (4.23-535) i (4.54 5.83) 1 62 3-hr 1.98 2.so 2.89 3.43 3.84 4 27 $.70 5.3a 5.78 (1.49-1.78} (1,82-2.17) (2.30-2.73) {2.65-3,16) (3.11-3.74)j{ (3.46-4.20} (3.824.67) (4.16-5.16} (4.62-5.83) (4.96-637) 6-ktr (1.854.19)j L (2.823 36) 1 (3.26-3.90) (3.86 6_ 4.81 {43 3-5.25} (4.80 5 88} 49) 0 8-27) 2 44 2.97 3.75 $-38 5.27 J 6.00 6.78 (5.27-6.54) 7.60 (5.91-87 {6. 8.80 9.77 92-hr (2.25-2.67) (2.73-3.24) (3.44-4.09) {4.00 4.76} (4.77-5.71) i (5_39-6.49) (6.03-7.33} (6.67-8.23) (7.579-55) i (8.27-10.6) 2 92 3.53 4.48 5.24 6,35 7.27 8.25 9.31 10.8 12.1 24-hr 11 (2.70-3.16) (3.26 3.83) (4.131f.85) (4.83-5.67) {5.81-6,86} (6.61-7.85} (7.46-8.90) 1 (8.35-10.1) {9.62-11:7) (10.7-13.1) 3.44 4.15 5.22 6.a8 7.28 8.26 9.3a 1a.a 12-0 13.3 2-day (3.20-3.71) (3.86 4.48) (4.85 5.63) 11 (5.63-6.54) 11 (6.71-7.83) (7 58_8.89) (8.48-10.0) (9.43-112) 110.7-12.9) i (11.8-14.4) 3,64 4.39 5.52 6.41 7-08.71 9.79 10.9 12.6 135 3-day 2.39-3.92j J 13-5.93) (5.95.6.89) (T()9 4) j (8.01-935) , (8.96-10.5) {9.9411.8) (11.3-13.6j� (12.415.1) 3.85 4. F 5.81 11 6.75 18.07 9.16 10.3 11.5 13.2 14.6 4 day (3.59-4.13) , (4.33-4 08) 11 (5.42-6.23) (628-7.23j (7A8 8.64) (8.43-9.81) (LA 11.0) (10.5-12.4) ' (11.9-14.3j (13,1-15.8) 4. 5.25 6.47 7.46 8 9.94 11.9 12.3 14.1 15.5 7-day (4.104.68)38 (6.05-6.92) ; (6:967.96} .82 (8.20-9.42) (9.19-10.6) {10.2-11.9) (11.313.2j (127-15p1)i {13.916.7) 6.00 5.97 7.28 8.32 9.75 90.9 12.1 13.3 15 0 16,d 10-day (4.69-5.33) (5.61 6.37j ! (6.83-7.76) 1 {7.78-8 86) {9.09-10.4) (10.1-11.6) {11.2-12.9} (122-14.2) (13 7 16.1) (14.9-171) 6.74 8.01 9.58 10.8 12.5 93.8 15.1 16,5 18.3 19.7 20-da {6.36-7.15) j (7.56-8.49) {9.0310.21 {10.2-11.5} (11.7-132) (12.9-14.6} (14.1-16.1) (153-17.5) (16.8_19.5) (18.0-21.1) �30-da 8.35 9.86 11.5 12,8 14.5 15.8 17.0 18.2 19.8 21.0 t��l (7.93-8.78} (9.37-10.4) (11.0-12.1) (12.2-13.5) {13.7-15.2} (14.9-16.5) {16.0 97.9) (17.1-19.2} (18.5-20.9) (19.6 22.3) 10.5 12.4 14.3 15,8 17: 19A 20.4 21.7 23.4 24.6 45-day (10.0-11.1) (11.8-13.0) (13.6-15,0) (15.0-16.5) (16.7-18.5) (18,0-%9) (19.3-21.4 ) (20.4 22.8) (21.9-24.7) (23.0-26.1) 60-day 92.6 a 14 7 16.8 18 4 (17.5 19.2j = 20.3 (19,4 21.3) 21.8 (20.8-22.8) 23.2 (22.0-24.3) 24.6 (23.3-25.8) E 26.3 {24.8-27.6) 27,5 (25.9 29.0) 1 Precipitation frequency (PF) estimates in this table are based on frequency analysis of partial duration series (PDS). Numbers in parenthesis are PF estimates at lower and upper bounds of the 90% confidence interval. The probability that precipitation frequency estimates (for a given duration and average recurrence interval) will be greater than the upper bound (or less than the lower bound) is 5%, Estimates at upper bounds are not checked against probable maximum precipitation (PMP) estimates and may be higher than currently valid PMP values. I IYIea5e reTer w 1VUAA Haas 14 aocumem Tor more Intoirmatlon. I) Back to Too PF graphical of 3 7/17/2019, 11:19 AM IPrecipitation Frequency Data Serve, https://Iidsc.nws.noaa.gov/hdsc/pfds/pfds_jnintpage.html?lat--36.2759&... 25 20 4 PDS-based depth -duration -frequency (DDF) curves Latitude: 36.27590, Longitude: -80.34210 Average recurrence enierW (year--) 2 5 10 25 50 100 — 200 — Boo — 1000 E M M M -0 '0-0 M M '0 -0 M M MM -a V 'a -0 A A 4 4. 6 6 6 �A� rq rq rn Lo Duration PA N fn -T 30 25 15 0 0 Duration 5-min — 2-day 10-min — 3-day 15-min — 4-day 30-min — 7-day 60-min — I "ay 2-hr 20-day 3-hr 30-day "r 4"ay I"t 60-day 24-hr Average recurrence interval (years) NOAA Atlas 14, Volume 2, Version 3 Created (GMT): Wed Jul 17 15:18:03 2019 Back to Top Maps & aerials Small scale terrain ,King 3km Rural Haft--' 2mi 2 of 3 7/17/2019, 1119 AM Precipitation Frequency Data Server https://hdsc.nws.noaa.gov/hdselpfds/pfds_printpage_html?lat=36.2759&._. Large scale terrain I&Fr Lit�rk Bt�isto a41n t t'f _�d�e �t eetishoto n>It>siilF NORTH is AROLIN.; 100km C'f�l•7fi1 s 6omi Faf?tt All- e Large scale map Cjh L,;n hhurg )3( '=F_:GfIFr`i FFC�StJ�.{.F xt 1'dir�sl=�n-�alent r r .F't.r,6,�ta purh in ;itch Asheville "` ►.� idrrtl7 a. Carohnil 100km hartotte �fi�Qmi Fayetteville Back to Top US Department of Commerce National Oceanic and Atmospheric Administration National Weather Service National Watcr Ccntcr 1325 East West Highway Silver Spring, MD 20910 Questions?: HDSC.Questions93noaa.aov Disc aimer 3 of 3 7/17/2019, 11:19 AM Precipitation Frequency Data Server https://hdsc.nws.noaa.gov/hdsc/pfds/pfds_printpage.html?lat=36.2759&... NOAA Atlas 14, Volume 2, Version 3 Location name: king, North Carolina, USA* Latitude: 36.27590, Longitude:-60.342io Elevation:Tu1096.9 it** * sourcce: ESRI tulaps a �r * source: USGS POINT PRECIPITATION FREQUENCY ESTIMATES G.M. 8onnin, 0. Martin, 8- Lin, T. Parcybok, MYelda, and D. Riley NOAA, National Weather Service, Silver Spring, Maryland PF tabular I PF graphical I Maus & aerials PF tabular PDS-based point precipitation frequency estimates with 90% confidence intervals (in incheslhourP Duration,--i--ice--� Average recurrence interval (years) 14 25 i 50 104 204 504 1400 4.43 6.99 7.72 5 min 4 5 .872 {6.36-7.54} (7.06-839)( . 5. . ($.69-10S) 10.2 $.9511.3}. 3.54 4.22 4.99 5.53 6.14 6 59 fi.98 7.34 7. 77 14-min (327-3.84) 11 (3.90-4.60) (4.60-5.44) {5.09-6.Q1) (5.62 6.6$} (5.99-7.17) (6.30-7.61) (6.58 $.03) (6.87-8.54) 8.05 15-mtn 2.95 (2.72320) 3.54 (3.27 3.$6} 4.21 (3.8$ 4.58) 4.66 5.19 {429-5.06) (4.75 5.65) 3.37 3.85 6.66 (5.05 6.Q5} 4.19 6.88 {5.3t 6.42} 4.51 G. (5.54 6.76) 4.81 6.52 (5-76-7.17) 5.19 6.74 (5.90-7.44 SA6 30 mirs 2.02 2.44 2.99 {1.87-2.19) (2.26-2.66} (216.326) {3.19-3.67) (3.52-4.18) (3.81.4.56) (4.07 4.91) (4.31-5.26) JL{4.59-5.70} (4.78-6.03) 1.26 1.53 1.92 2 20 2.56 2.84 3.10 3.37 3.72 3.98 60 mirs (1.16-1.37) (1.42-1.67) {1.77-2.09) (2.34-2.79) (2.58-3.09) (2.80-3.38) (3.02-3.69) (3.2911.09)' (3.49-4.40} 0.752 0.916 1.16 ------- l.33F 1.58 11 1.77 11.96 2.lfi 2.42 2.63 2-hr (Q.690-0:822}' {0.841-1.00} 1 (1.06 1.26) (122-1.46} (1.43 1.72) (1.59 1.93) (1.75-2.15) (1.91-2.37} (2.11-Z67) (2.27-2.92) 0 540 0.fi60 0.832 0.963 1.14 1.28 1.42 1.57 1.77 1.82 3-hr (QA97-0.592) (0.607-0.723} (0.764 0.909) (0-882-1.fl5} (1.0 1.25) (1.15-1.40) (1.27-1.56) (1.39-t72) (1.54-1.94) (1.65 2.12) 0 335 6 j (0.308-0.3661(0.375-0.446 0.407 0.512 2:471-0.562)j j 0.596 0.710 (0.545-0.651) (0.644 0.776), 0.803 (0.723-0.877 0.900 (0.802-0.981) 1.00 (0.880-1.09) 1.14 (0.987-1.25} 1.25 (1.07-1.38) 12-hr f-0-.20311 (Q.187-0.221) 0.246 (0.227-0.269 0.311 (0.286-0.339). D.363 0.437 (0.332 0.395) 0.498 0.563 0.631 4.683 D.730 0.811 (0.396-0.474} (0.447-0.538) (0.500-0.609) (0.553 (0.628 0.792) (0.686-0.882) 24-hr 0121 (0.112-0-132) 0.147 0.187 0.219 0.265 0.3 33 0.344 0.388 0.462 0.506 (0.136-0.160 {0.172-0202 (0201-0236) {0.242-02$6} {0.276-0.327)I (0.311-0.371) {0.348-0.419} (0.401-0.488 {0.444-0.546 0.072 0.086 0.149 0.127 0.152 0.172 0.194 0.217 0.249 0.2T6 2 day (0.067-0.077}1(0.0$0-0.093) (0.101-0.117} (0.117 D 136)t (0.140 0.163)! (0.158-0.185} (0.177-0.209) (O.ia6-0.234), (0.224 0.269) (0 246 0.299 0.051 3-day (0.047-0.054)' 0.061 (OA57-0.066), 0.077 (OA71-0.082 0.089 0.107 (0 083_0.096) (0A98-0.114)� 0.121 (Q.111 Q.130) 0.136 (0.124-0.146) 0.162 (0.138-0.164} 0.175 (0.157-O.t89) 0194 (0173-0.21Q) 0.040 4-day (0.037-Q.443} 0.048 (0.045 O.Q52) 0.061 (O.Q56 0.Q65) 0. 770 0.084 (OA65-0.075)(0.07 0.095 (Q.088-Q.102 0.107 (0.098-0.715) 0.120 (Q.t09-Q.t29) 0.138 O.i48) 0.152 0.026 7-day 0-028) 0.031 0.039 0.044 0.063 4.059 o-ose 0.073 1 (0.124 0.084 (0.136-0.165) 0.092 (0.024 (0.029-0.033) (0-036-0.041} (0.041-0.047) (0.049-0.056) (0.055-0.063 (0.06t-0.071) (D.067-0.079 {0.476-0.090) (0.083-0.099) 0.021 1t)-day 0.025 6.630 4.035 0.041 0.445 0.050 0,056 0.063 0.068 (Q.020-0.022)1(0-023-0.027} {0.028-0.032) (0.032-0.637) (0.038-0.043)j (0.042-0.048j (0.047-0.054) (OA51-0.059) (0.057-0.067j (0.062.0.074 24-da 0.014 (0.013-0.015) 0.017 {0.Oi6-0.Q18) 0.020 {0.019-0.02i} 0.023 Q02fi 0.024} 0.028) 0.029 0.032 0.034 0.038 1 0.041 {0.021 (0-02A (O.Q27-0.030) {Q.029 0.033) (0.032-0.037) (O.D35 0.041) (0-038_0-044) 0.014 0.0167 0.018.A. 4.022 0.024 0.029 3y(01 Q.413-014}(A15-.00.017-00190 0021-0.023 .Q20.05-0 .28 -0.029) 0027Q031). 0010 (0.009Q.010 (0 0.013 -04(0.014-0.015) (0.015-0.017O . 0.019 (0.018-OA20 0024 0.09 0.022 (00Q-0.023) 0023 -02.01-002}(Q.013.014da (0. -024 U011 090.0Q011) 0.010 . 10710 10.2 0013i 2 -0.03) 0014 Q03O .tS) . 0.015 0016 0.017 0.018 9)0:O8- 0.019 (0.018-0.020) t Precipitation frequency (PF) estimates in this table are based on frequency analysis of partial duration series (PDS). Numbers in parenthesis are PF estimates at lower and upper bounds of the 90% confidence interval. The probability that precipitation frequency estimates (for a given duration and average recurrence interval) will be greater than the upper bound (or less than the lower bound) is 5%. Estimates at upper bounds i are not checked against probable maximum precipitation (PMP) estimates and may be higher than currently valid PMP values. I Please refer to NOAA Atlas 14 document for more infomnation. t3aCK to 100 PF graphical of 3 7/17/2019, 11:21 AM IPrecipitation Frequency Data Server It ttps://hdsc.nws.noaa.gov/hdse/pfds/pfds_printpage.html?lat--3 6.2759& 100.0( REM 04 LA 1000 0.100 rG o. tU 0.010 100.000 1� 10.000 Bl 1.000 OJOO 0.010 0.001 PDS-based intensity -duration -frequency (IDF) curves Latitude: 36.27591, Longitude: -80-3421, I -T ............. ...... ............ E M m M M m m m m m -0 -0-0 -0 -0 a IC "a -0 6 tA 4 1 1 1 . I rq 1.4 rn Duration ------------ ------- — --------- -------------------- ...... ------------------- 2 5 10 25 50 100 200 Sno I Average recurrence interval (years) NOAA Atlas 14, Volume 2, Version 3 Created (GMT): wed Jul 17 15.20-.25 2019 Back to To Maps & aerials Average recurrence interval (years) 2 25 so 100 — 200 — Soo — 1000 Durabon 59-ftn — 2-day 10-min — 3-day 15-mtn — 4-day 30-min — 7-day 60-mtn — 1"ay 2-hr 20-day — 3-hr 30-C* — "T 45-day — Iz-hr 60-day — 24-illit 2 of 3 7/17/2019, 11:21 AM Precipitation! Frequency Data. Server https://hdsc.nws.noaa.gov/hdselpfds/pfds_printpage.hbnl?lat=3b.2759&... Large scale terrain L �nrJd:�ttt4 01�ck 1{r`y F:oanrkt s Brist��1 a" Now { rvr4lt} tcst1 `v Yi Y�1 • Y' [iVriidn9 Greensboro NORTH C AROLITitA 100kmj d ae harlotte Fayetteville � 60mi Large scale map ♦-}'t chburg Black: burq . Rc inoke {.t Errfol John 4n C itt ,,✓• w� w wrw w�{ti'��1tsn-�'llem t�re?ny,%C�P3 Durham tgh - „�'. 31 r1I *� hartotte /'' �100km '"""(--- SOmi LF�ett�rit6e Back to Top US Department of Commerce National Oceanic and Atmospheric Administration National Weather Service National Water Center 1325 East West Highway Silver Spring, MD 20910 Questions?: HDSC.Questionsftnoaa.00v Disclaimer 3 of 3 7/17/2019, 11:21 AM KINGS CROSSING STORMWATER MANAGEMENT ED STRUCTURE COMPUTED DESIGN DATA BASIN 1# COMPUTED 1-YR. WATER QUALITY DATA Volumetric Runoff Coefficient, Rv: 0.621 Water Quality Volume (1-Inch Storm), WQv; 21,717.131 Cu.Ft. Water Quality Runoff Volume, Qa: 0.62 Inches Water Quality CN (using Qa): 96 CN Intial Abstraction, la: = 0.086 la/P(1") = 0.086 Qu (TR-55)= 730.00 csm/in Time of Concentration, Tc : 14.81 Min. Intensity for 1 yr. Storm, 1 2.95 In./hr. Peak Rate of Runoff, Tp : 39.76 Min. Water Quality Peak Discharge, Qp: 6.8 cfs Runoff Depth, Q* : Water Quality Drawdown Elevation: 1.48 Inches 1069.00 Water Quality Volume Provided: (Volume between Permanent Pool and Riser Orifice) 1 59,068.478 Cu.Ft. Permanent Pool Elevation: 1059.00 Riser Orifice Elevation: 1062.00 COMPUTED 25-YR. WATER QUANTITY DATA Pre -developed Runoff Volume. - Post -developed Runoff Volume: 44,400 Cu.Ft. 94,848 Cu.Ft. Runoff Volume to be Detained (Post - Pre): 50,448 Cu.Ft, Water Quantity Volume Provided: (Volume between Permanent Pool and 25-yr Ell 63,591 Cu.Ft. Surplus Volume Provided: 13,143 Cu.Ft. Permanent Pool Elevation: 1059.00 25-YR Elevation: 1062.21 Discharge Rate @ 48 hrs: 0.142 cfs Approx. Time to Complete Discharge: (max. 120 hrs.) 96 hr. PRE/POST DEVELOPED PEAK DISCHARGES Pre -Developed Post -Developed Routed Pond Peak Discharge Peak Discharge Peak Discharge Design Storm (cfs) (cfs) (cfs) 1 yr, - 24 hr 5.437 20.570 0.161 2 yr. - 6 hr. 1.591 9.166 0.146 10 yr. - 6 hr. 5.948 17.350 2.223 25 yr. - 6 hr. 9.269 22.600 3.938 50 yr. - 6 hr. 0.000 0.000 0.000 100 yr. - 6 hr. 15.710 31.560 8.867 KING'S CROSSING STORMWATER MANAGEMENT ED STRUCTURE PERMANENT BASIN DESIGN BASIN 1# BASIN CONFIGURATION (RISER & ORIFICE Width Length Approx. Basin Dimension: 88 X 138 Basin Side Slopes: 3 : 1 Minimum Length/Width Ratio: Proposed Length/Width Ratio: Main Pool Surface Area and Volume (SA/DA): Permanent Pool Average Depth: Percent Impervious Cover: Required SA/DA Ratio for TSS Removal: Required Permanent Pool Area for TSS Removal: Permanent Pool Area Provided: Permanent Pool Average Depth Calculation: *Shelf is not submerged: VPP Davg APP Water Quality Drawdown Orifice: Maximum Head: Minimum Head: Design Head (h max/3), h: Maximum Release Rate: Minimum Release Rate: Maximum Hole Size: Minimum Hole Size: Conduit Size Used: Orifice Size Used: Orifice Size Release Rates: Required Temporary Pool Depth: Permanent Pool Depth: Minimum Crest Height of Riser: Crest Height of Riser: Basin Volume as Configured at Top of Riser: Volume of Permanent Pool Area of Permanent Pool Davg = 0,041 S.F 0.016 S.F 0.022 SY 0.0692 CFS Surface Area 16,980.00 S.F. 1.5:1 2.2:1 3.00 Ft. 63.4 % 2.23 9,377.44 S.F. 13,096.82 S.F. 1059.0 Elevation 43,780.60 Cu.Ft. 12,654.65 S.F. 3.46 Ft. 14.7 In. 0.0 In. 4.9 In, 2 Days 5 Days 2.74 In. Dia. 1.73 In. Dia. 4.0 In. Dia. 2.00 In. Dia. 3.6 Days 1.22 Ft. 3.00 Ft. 4.22 Ft. 8.00 Ft. 90,042.65 C.F. ,a= _ \ / \ \ƒ \0 10 0 o� k k & OoLga 000%» _» _a _» _» 009» _» _» oczlla OMI» »_ 000g» _» _» _» _» _» _ _» 00&» _» / \ maz M \ \ 7{ _ & a § / \ \ / / k )\ \\ \ 1 2 ^K 2g S \ } § { A E § � \ ) / § / § g // \ 8 N) -� w k ) { \ ■» ƒ 7§ o o\ zOiQ: }\ V 0 Q 0 LL a a Z W W J a a Co U O O a U L O U E U m m CE U, E N C s O C) L ma [6 (6 O O C U m L a) N E N Q > �5 ° c > in a.§om m a as > 4 (Dm O m N U Q Q a) fQ6 E O oa y c N 0 in cD E m O) a) a) U N c a)a m a)C: 0.2 m In a) c m tuE0� O m ca ccc N > y 1 O Q) U O () O C E O N i3 N E a '") N N W C 01 O C O O a N .. a) 3 U m O E ?, '0 ca E N _ t�6 CO L Q m O a) U o O m .O O a) m L i O .mC > L Z m C) ... t„ m Q N C7 a `n y a m U O N o V E 't7 m E o d U �� m m L N N O (D - aa) 3 m a) U O Q N N m U) D a) z c m a) Q. m N 0(D Q > m o� ° 3 c-' ma a) O 2 O as O U U O O O a N p >. Q.E E— m Q) a) .� = -ooa)m 'o o� U= � Q N W�Em ) N V N ID ID� , a ED u. Q a fV (L >4) > O` a s NQ -co: O N N _ 3' N O> a) O a) 3 Q O s m5 O p N z N O.Q cd O C N R) O N O .O earn o'a)W � ctA c ) m�U a�i�`m`mZ o ma c m� Y E oa `� m o E cn °' 3as m cmi z Qa �© m amp E L E c m 7 (n a 0 y@ Q O A t6 N Or5. i a) co am) 3 N O m O m v N� => O N . =' O Etp FTE Coo co) 2 oa-aa< om tL- o c°ncn tour ON H 00. E� m N m C m � t Q o 0 a v, N m S co a a a m E o a_ Q v v❑ 16 z m N c c N 'oUO C0 o w _❑ a Q R 3 0El ii 0 CL o U) cc s m r= m a) a m > m m m o o 0 m a° o ¢ ❑ ❑ o m o ❑ o o a o 0 d m¢ I I! ®® R o❑�❑11❑❑❑❑ o R o� 4 to m z Hydrologic Soil Group —Stokes County, North Carolina King's Crossing Hydrologic Soil Group Map unit symbol Map unit name Rating Acres in AOl Percent of AOI ' CeB2 Clifford sandy clay loam, B 49.7 33.2% 2 to 8 percent slopes, moderately eroded FpC2 Fairview -Poplar Forest C 62.1 41.5% complex, 8 to 15 percent slopes, moderately eroded FpD2 Fairview -Poplar Forest B 34.6 23.1% complex, 15 to 25 percent slopes, moderately eroded FrB Fairview -Poplar Forest- B 0.0 0.0% Urban land complex, 2 to 8 percent slopes W Water 3.3 2.2°% Totals for Area of Interest 148.7 100.0% t _1I'1% Natural Resources Web Soil Survey 5/612021 Conservation Service National Cooperative Soil Survey Page 3 of 4 Hydrologic Soil Group —Stokes County, North Carolina King's Crossing Description Hydrologic soil groups are based on estimates of runoff potential. Soils are assigned to one of four groups according to the rate of water infiltration when the soils are not protected by vegetation, are thoroughly wet, and receive precipitation from long -duration storms. The soils in the United States are assigned to four groups (A, B, C, and D) and three dual classes (AID, B/D, and C/D). The groups are defined as follows: Group A. Soils having a high infiltration rate (low runoff potential) when thoroughly wet. These consist mainly of deep, well drained to excessively drained sands or gravelly sands. These soils have a high rate of water transmission. Group B. Soils having a moderate infiltration rate when thoroughly wet. These consist chiefly of moderately deep or deep, moderately well drained or well drained soils that have moderately fine texture to moderately coarse texture. These soils have a moderate rate of water transmission. Group C. Soils having a slow infiltration rate when thoroughly wet. These consist chiefly of soils having a layer that impedes the downward movement of water or soils of moderately fine texture or fine texture. These soils have a slow rate of water transmission. Group D. Soils having a very slow infiltration rate (high runoff potential) when thoroughly wet. These consist chiefly of clays that have a high shrink -swell potential, soils that have a high water table, soils that have a claypan or clay layer at or near the surface, and soils that are shallow over nearly impervious material. These soils have a very slow rate of water transmission. If a soil is assigned to a dual hydrologic group (A/D, B/D, or C/D), the first letter is for drained areas and the second is for undrained areas. Only the soils that in their natural condition are in group D are assigned to dual classes. Rating Options Aggregation Method. Dominant Condition Component Percent Cutoff.- None Specified Tie -break Rule: Higher USDA Natural Resources Web Soil Survey 5/6/2021 a" Conservation Service National Cooperative Soil Survey Page 4 of 4 Watershed Model Schematic Hydraflow Hydrographs Extension for AutoGAD®Civil 3D® 2009 by Autodesk, Inc. v6.066 3 Legend Hvd. origin Description 1 SCS Runoff POND #1 Pre-Dev - 6 HOUR 2 SCS Runoff POND #1 Post-Dev - 6 HOUR 3 Reservoir POND #1 Routed 6 HOUR Project: HYDROGRAPH - POND 1#.gpw Thursday, Oct 7, 2021 Hydrograph Report Hydraflow Hydrographs Extension for AutoCAD® Civil 3D® 2009 by Autodesk, Inc. v6.066 Thursday, Oct 7, 2021 Hyd. No. 1 POND #1 Pre-Dev - 24 HOUR Hydrograph type = SCS Runoff Peak discharge = 5.437 cfs Storm frequency = 1 yrs Time to peak = 724 min Time interval = 2 min Hyd. volume = 18,620 cuff Drainage area = 9.640 ac Curve number = 67 Basin Slope = 0.0 % Hydraulic length = 0 ft Tc method = USER Time of cone. (Tc) = 14.80 min Total precip. = 2.92 in Distribution = Type II Storm duration = 24 hrs Shape factor = 484 Q (cfs) 6.00 5.00 3.00 1.00 0.00 -1 1 -1 0 10 20 -- Hyd No. 1 POND #1 Pre-Dev - 24 HOUR Hyd. No. 1 --1 Year 30 40 50 60 70 80 Q (cfs) 6.00 4.00 3.00 1.00 -I-----1- 0.00 90 100 'rime (hrs) Hydrograph Report Hydraflow Hydrographs Extension forAutoCADt) Civil 3D® 2009 by Autodesk, Inc. v6.066 Thursday, tact 7, 2021 Hyd. No. 2 POND #1 Post-Dev - 24 HOUR Hydrograph type = SCS Runoff Peak discharge = 20.57 cfs Storm frequency = 1 yrs Time to peak = 720 min Time interval = 2 min Hyd. volume = 53,360 cuft Drainage area = 9.640 ac Curve number = 84.4 Basin Slope = 0.0 % Hydraulic length = 0 ft Tc method = USER Time of cons. (Tc) = 10.10 min Total precip. = 2.92 in Distribution = Type 11 Storm duration = 24 hrs Shape factor = 484 Q (cfs) 21.00 18.00 15.00 12.00 9.00 - 6.00 - 3.00 - POND #1 Post-Dev - 24 HOUR Hyd. No. 2 -- 1 Year Q (cfs) 21.00 18.00 15.00 12.00 • Ii 3.00 0.00 -a-- I r=--- I -- I I I I I ===Mh ` 0.00 0 2 4 6 8 10 12 14 16 18 20 22 24 26 Time {hra) --- Hyd No. 2 Hydrograph Deport Hydraflow Hydrographs Extension for AutoCAD® Civil 3D® 2009 by Autodesk, Inc. v6.066 Thursday, Oct 7, 2021 Hyd. No. 4 POND #1 Routed 24 HOUR Hydrograph type = Reservoir Peak discharge = 0.161 cfs Storm frequency = 1 yrs Time to peak = 1448 min Time interval = 2 min Hyd. volume = 39,420 cuft Inflow hyd. No. = 2 - POND #1 Post-Dev - 24 HOUR Max. Elevation = 1061.43 ft Reservoir name = POND 1# Max. Storage = 98,474 cuft Storage Indication method used. Wet pond routing start elevation = 1059.00 ft. POND #1 Routed 24 HOUR Q (cfs) Hyd. No. 4 -- 1 Year 21.00 18.00 15.00 12.00 m Q (cfs) 21.00 18.00 15.00 12.00 MIN 3.00 0.00 1 0.00 0 600 1200 1800 2400 3000 3600 4200 4800 5400 6000 Time {man} _- - - Hyd No. 4 Hyd No. 2 ® Total storage used = 98,474 cult Hydrograph Report Hydraflow Hydrographs Extension forAutoCAD@ Civil 3D® 2009 by Autodesk, Inc. v6.066 Thursday, Oct 7, 2021 Hyd. No. 6 POND #1 Pre-Dev - 6 HOUR Hydrograph type = SCS Runoff Peak discharge = 1.591 cfs Storm frequency = 2 yrs Time to peak = 158 min Time interval = 2 min Hyd. volume = 11,319 cult Drainage area = 9.640 ac Curve number = 67 Basin Slope = 0.0 % Hydraulic length = 0 ft Tc method = USER Time of conc. (Tc) = 14.80 min Total precip. = 2.44 in Distribution = SCS 6-Hr Storm duration = 6.00 hrs Shape factor = 484 Q (cfs) 2.00 1.00 POND #1 Pre-Dev - 6 HOUR Hyd. No. 6 -- 2 Year Q (cfs) 2.00 M 0.00 l— 1 i If I I I I \- 1 0.00 0.0 1.0 2.0 3.0 4.0 5.0 6.0 7.0 —-= Hyd No. 6 Time (hrs) Hydrograph Report Hydraflow Hydrographs Extension for AutoCADO Civil 3D0 2009 by Autodesk, Inc. v6.066 Thursday, Oct 7, 2021 Hyd. No. 7 POND #1 Post-Dev - 6 HOUR Hydrograph type = SCS Runoff Peak discharge = 9.166 cfs Storm frequency = 2 yrs Time to peak = 150 min Time interval = 2 min Hyd. volume = 39,472 cult Drainage area = 9.640 ac Curve number = 84.4 Basin Slope = 0.0 % Hydraulic length = Oft Tc method = USER Time of conc. (Tc) = 10.10 min Total precip. = 2.44 in Distribution = SCS 6-Hr Storm duration = 6.00 hrs Shape factor = 484 Q (cfs) 10.00 MEME&KI! 4.00 2.00 000 POND #1 Post-Dev - 6 HOUR Hyd. No. 7 -- 2 Year Q (cfs) 10.00 8.00 4.00 2.00 0.00 0.0 1.0 2.0 3.0 4.0 5.0 6.0 7.0 - Hyd No. 7 Time (hrs) Hydraflow Hydrographs Extension forAutoCAD® Civil 3D® 2009 byAutodesk, Inc. v6.066 Tuesday, Oct 5, 2021 Hyd. No. 3 POND #1 Routed 6 HOUR Hydrograph type = Reservoir Peak discharge = 0.146 cfs Storm frequency = 2 yrs Time to peak = 376 min Time interval = 2 min Hyd. volume = 34,037 cult Inflow hyd. No. = 2 - POND #1 Post-Dev - 6 HOUR Max. Elevation = 1061.02 ft Reservoir name = POND 1# Max. Storage = 89,641 cult Storage Indication method used. Wet pond routing start elevation = 1059.00 ft. Q (cfs) 10.00 2.00 POND #1 Routed 6 HOUR Hyd. No. 3 -- 2 Year Q (cfs) 10.00 4.00 2.00 0.00 0.00 0 600 1200 1800 2400 3000 3600 4200 4800 5400 6000 Time (min) - Hyd No. 3 --- Hyd No. 2 Total storage used = 89,641 cuff Hydrograph Report Hydraflow Hydrographs Extension forAutoCADO Civil 3D® 2009 byAutodesk, Inc. v6.066 Hyd. No, 6 POND #1 Pre-Dev - 6 HOUR Hydrograph type = SCS Runoff Storm frequency = 10 yrs Time interval = 2 min Drainage area = 9.640 ac Basin Slope = 0.0 % Tc method = USER Total precip. = 3.57 in Storm duration = 6.00 hrs Q (cfs) 6.00 5.00 3.00 2.00 m N Me Thursday, Oct 7, 2021 Peak discharge = 5.948 cfs Time to peak = 154 min Hyd. volume = 30,355 cult Curve number = 67 Hydraulic length = 0 ft Time of conc. (Tc) = 14.80 min Distribution = SCS 6-Hr Shape factor = 484 POND #1 Pre-Dev - 6 HOUR Hyd. No. 6 -- 10 Year Q (cfs) 6.00 5.00 4.00 3.00 1.00 0.0 1.0 2.0 3.0 4.0 5.0 6.0 7.0 - Hyd No. 6 Time (hrs) Hydrocgraph Report Hydraflow Hydrographs Extension for AutoCADO Civil 3D@ 2009 by Autodesk, Inc. v6.066 Hyd. No. 7 POND #1 Post-Dev - 6 HOUR Hydrograph type = SCS Runoff Storm frequency = 10 yrs Time interval = 2 min Drainage area = 9.640 ac Basin Slope = 0.0 % Tc method = USER Total precip. = 3.57 in Storm duration = 6.00 hrs Q (cfs) 18.00 15.00 12.00 9.00 6.00 3.00 000 0.0 1.0 --- Hyd No. 7 Thursday, Oct 7, 2021 Peak discharge = 17.35 cfs Time to peak = 148 min Hyd. volume = 73,208 cult Curve number = 84.4 Hydraulic length = 0 ft Time of conc. (Tc) = 10.10 min Distribution = SCS 6-Hr Shape factor = 484 POND #1 Post-Dev - 6 HOUR Hyd. No. 7 -- 10 Year Q (cfs) 18.00 15.00 12.00 9.00 6.00 3.00 0 00 2.0 3.0 4..0 5.0 6.0 7.0 Time (hrs) Hydrograph Report Hydraflow Hydrographs Extension for AutoCADO Civil 3DU 2009 by Autodesk, Inc. v6.066 Tuesday, Oct 5, 2021 Hyd. No. 3 POND #1 Routed 6 HOUR Hydrograph type = Reservoir Peak discharge = 2.223 cfs Storm frequency = 10 yrs Time to peak = 342 min Time interval = 2 min Hyd. volume = 58,108 cult Inflow hyd. No. = 2 - POND #1 Post-Dev - 6 HOUR Max. Elevation = 1062.13 ft Reservoir name = POND 1# Max. Storage = 114,083 cult Storage Indication method used. Wet pond routing start elevation = 1059.00 ft. POND #1 Routed 6 HOUR Hyd. No. 3 -- 10 Year 15.00 12.00 "I . �M 3.00 Q (cfs) 18.00 15.00 12.00 3.00 000 0 600 1200 1800 2400 3000 3600 4200 4800 5400 6000 --- Hyd No. 3 Hyd No. 2 Total storage used = 114,083 cuff Time (min) Hydrograph Report Hydraflow Hydrographs Extension for AutoCAD® Civil 3D@ 2009 by Autodesk, Inc. v6.066 Thursday, Oct 7, 2021 Hyd. No. 6 POND #1 Pre-Dev - 6 HOUR Hydrograph type = SCS Runoff Peak discharge = 9.269 cfs Storm frequency = 25 yrs Time to peak = 154 min Time interval = 2 min Hyd. volume = 44,400 cuff Drainage area = 9.640 ac Curve number = 67 Basin Slope = 0.0 % Hydraulic length = Oft Tc method = USER Time of conc. (Tc) = 14.80 min Total precip. = 4.25 in Distribution = SCS 6-Hr Storm duration = 6.00 hrs Shape factor = 484 Q (cfs) 10.00 8.00 6.00 4.00 2.00 POND #1 Pre-Dev - 6 HOUR Hyd. No. 6 -- 25 Year Q (cfs) 10.00 8.00 6.00 4.00 2.00 0.00 +- -1 --.W I I I I %� 1 0.00 0.0 1.0 2.0 3.0 4.0 5.0 6.0 7.0 Hyd No. 6 Time (hrs) Hydrograph Report Hydraflow Hydrographs Extension for AutoCADO Civil 3D® 2009 by Autodesk, Inc. v6.066 Hyd. No. 7 POND #1 Post-Dev - 6 HOUR Hydrograph type = SCS Runoff Storm frequency = 25 yrs Time interval = 2 min Drainage area = 9.640 ac Basin Slope = 0.0 % Tc method = USER Total precip. = 4.25 in Storm duration = 6.00 hrs Q (cfs) 24.00 ►M 16.00 12.00 4.00 0.00 0.0 1.0 Hyd No. 7 Thursday, Oct 7, 2021 Peak discharge = 22.60 cfs Time to peak = 148 min Hyd. volume = 94,848 cult Curve number = 84.4 Hydraulic length = 0 ft Time of conc. (Tc) = 10.10 min Distribution = SCS 6-Hr Shape factor = 484 POND #1 Post-Dev - 6 HOUR Hyd. No. 7 -- 25 Year 2.0 3.0 4.0 5.0 6.0 Q (cfs) 24.00 20.00 . ri 12.00 M M o.00 7.0 Time (hrs) Hydrograph Report Hydraflow Hydrographs Extension for AutoCADO Civil 3D® 2009 by Autodesk, Inc. v6.066 Tuesday, Oct 5, 2021 Hyd. No. 3 POND #1 Routed 6 HOUR Hydrograph type = Reservoir Peak discharge = 3.938 cfs Storm frequency = 25 yrs Time to peak = 248 min Time interval = 2 min Hyd. volume = 79,727 cult Inflow hyd. No. = 2 - POND #1 Post-Dev - 6 HOUR Max. Elevation = 1062.21 ft Reservoir name = POND 1# Max. Storage = 115,781 tuft Storage Indication method used. Wet pond routing start elevation = 1059.00 ft. POND #1 Routed 6 HOUR Q (Cfs) Hyd. No. 3 -- 25 Year 24.00 20.00 16.00 12.00 0 m 0.00 0 600 Hyd No. 3 Q (cfs) 24.00 _Q K11 12.00 M 4.00 0.00 1200 1800 2400 3000 3600 4200 4800 5400 6000 Time (min) Hyd No. 2 ® Total storage used = 115,781 Cult Hydrograph Report Hydraflow Hydrographs Extension for AutoCAD@ Civil 3D0 2009 by Autodesk, Inc. v6.066 Hyd. No. 6 POND #1 Pre-Dev - 6 HOUR Hydrograph type = SCS Runoff Storm frequency = 100 yrs Time interval = 2 min Drainage area = 9.640 ac Basin Slope = 0.0 % Tc method = USER Total precip. = 5.39 in Storm duration = 6.00 hrs Q (cfs) 18.00 15.00 Thursday, Oct 7, 2021 Peak discharge = 15.71 cfs Time to peak = 152 min Hyd. volume = 70,951 cult Curve number = 67 Hydraulic length = 0 ft Time of conc. (Tc) = 14.80 min Distribution = SCS 6-Hr Shape factor = 484 POND #1 Pre-Dev - 6 HOUR Hyd. No. 6 -- 100 Year Q (cfs) 18.00 15.00 12.00 12.00 9.00 9.00 6.00 6.00 3.00 3.00 0.00 a ao 0.0 1.0 -- Hyd No. 6 2.0 3.0 4.0 5.0 6.0 7.0 Time (hra) Hydrograph Report Hydraflow Hydrographs Extension for AutoCADO Civil 3D0 2009 by Autodesk, Inc. v6.066 Hyd. No. 7 POND #1 Post-Dev - 6 HOUR Hydrograph type = SCS Runoff Storm frequency = 100 yrs Time interval = 2 min Drainage area = 9.640 ac Basin Slope = 0.0 % Tc method = USER Total precip. = 5.39 in Storm duration = 6.00 hrs Thursday, Oct 7, 2021 Peak discharge = 31.56 cfs Time to peak = 148 min Hyd. volume = 132,416 cult Curve number = 84.4 Hydraulic length = 0 ft Time of cone_ (Tc) = 10.10 min Distribution = SCS 6-Hr Shape factor = 484 POND #1 Post-Dev - 6 HOUR Q (cfs) Hyd. No. 7 -- 100 Year Q (cfs) 35.00 35.00 30.00 30.00 25.00 25.00 20.00 20.00 15.00a� _ 15.00 10.00 10.00 5.00 5.00 0.00 j-". ' = 0.00 0.0 1.0 2.0 3.0 4.0 5.0 6.0 7.0 . _,.— Hyd No. 7 Time (hrs) Hydraflow Hydrographs Extension forAutoCAD@ Civil 3DQ 2009 byAutodesk, Inc. v6.066 Tuesday, Oct 5, 2021 Hyd. No. 3 POND #1 Routed 6 HOUR Hydrograph type = Reservoir Peak discharge = 8.866 cfs Storm frequency = 100 yrs Time to peak = 182 min Time interval = 2 min Hyd. volume = 117,269 cuff Inflow hyd. No. = 2 - POND #1 Post-Dev - 6 HOUR Max. Elevation = 1062.36 ft Reservoir name = POND 1# Max. Storage = 119,384 cult Storage indication method used. Wet pond routing start elevation = 1059,00 ft Q (cfs) 35.00 30.00 25.00 20.00 - 15.00 - 10.00 - 5.00 - 0 .00 . No.1 POND #1 Routed 6 HOUR Hyd. No. 3 -- 100 Year 1200 1800 2400 3000 3600 4200 4800 5400 Hyd No. 2 ® Total storage used = 119,384 tuft Q (cfs) 35.00 25.00 20.00 15.00 5.00 - 1 0.00 6000 Time (min) Hydraflow Hydrographs Extension for AutoCADO Civil 3D0 2009 by Autodesk, Inc. v6.066 Thursday, Oct 7, 2021 Pond No. 1 - POND 1# Pond Data Contours - User -defined contour areas. Conic method used for volume calculation. Begining Elevation = 1055.00 ft Stage / Storage Table Stage (ft) Elevation (ft) Contour area (sgft) Incr. Storage (cult) Total storage (cuft) 0.00 1055.00 10,571 0 0 1.00 1056.00 11,730 11,144 11,144 2.00 1057,00 12,946 12,332 23,476 3.00 1058.00 14,219 13,576 37,052 4.00 1059.00 15,549 14,878 51,930 5.00 1060.00 19,168 17,325 69,255 6.00 1061.00 20,841 19,997 89,252 7.00 1062.00 22,570 21,698 110,949 8.00 1063.00 24,356 23,455 134,404 9.00 1064,00 26,198 25,269 159,673 Culvert / Orifice Structures Weir Structures [A] [B] [C] [PrfRsr] [A] [B] [C] [D] Rise (in) = 15.00 2.00 inactive Inactive Crest Len (ft) = 12.00 12.00 Inactive Inactive Span (in) = 15.00 2.00 0.00 0.00 Crest EL (ft) = 1062.00 1063.00 0.00 0.00 No. Barrels = 1 1 0 0 Weir Coeff. = 3.33 3.33 3.33 3.33 Invert El. (ft) = 1055.00 1059.00 0.00 0.00 Weir Type = Riser Cipiti --- --- Length(ft) = 70.00 0.50 0.00 0.00 Multi -Stage = Yes No No No Slope (%) = 2.14 0.00 0.00 n/a N-Value = .013 .013 .013 n/a Orifice Coeff. = 0.60 0.60 0.60 0.60 Exfil.(in(hr) = 0.000 (by Wet area) Multi -Stage = n/a Yes No No TW Elev. (ft) = 0.00 Stage (ft) 10.00 8.00 6.00 4.00 2.00 10" Note: Culvert/0rifice outflows are analyzed under inlet (ic) and outlet (oc) control. Weir risers checked for orifice conditions (ic) and submergence (s) Stage / Discharge Elev (ft) 1065.00 1063.00 1061.00 1059,00 1057.00 0.00 6.00 12.00 18.00 24.D0 30.00 36.00 42.00 48.00 54.00 60.00 - Total 0 Discharge (cfs) Hydraflow Hydrographs Extension for AutoCAD® Civil 3D® 2009 by Autodesk, Inc. v6.066 Thursday, Oct 7, 2021 Pond No. 1 - POND 1# Pond Data Contours - User -defined contour areas. Conic method used for volume calculation. Begining Elevation = 1055.00 ft Stage / Storage Table Stage (ft) Elevation (ft) Contour area (sqft) Incr. Storage (cult) Total storage (cult) 0.00 1055.00 10,571 0 0 1.00 1056.00 11,730 11,144 11,144 2.00 1057.00 12,946 12,332 23,476 3.00 1058.00 14,219 13,576 37,052 4.00 1059.00 15,549 14,878 51,930 5.00 1060.00 19,168 17,325 69,255 6.00 1061.00 20,841 19,997 89,252 7.00 1062,00 22,570 21,698 110,949 8.00 1063.00 24,356 23,455 134,404 9.00 1064.00 26,198 25,269 159,673 Culvert / Orifice Structures Weir Structures [A] [B] [C] [PrfRsr] [A] [B] [C] [D] Rise (in) = 15.00 2.00 Inactive Inactive Crest Len (ft) = 12.00 12.00 Inactive Inactive Span (in) = 15.00 2.00 0.00 0.00 Crest El. (ft) = 1062.00 1063.00 0.00 0.00 No. Barrels = 1 1 0 0 Weir Coeff. = 3.33 3.33 3.33 3.33 Invert El. (ft) = 1055.00 1059.00 0.00 0.00 Weir Type = Riser Ciplti --- Length (ft) = 70.00 0.50 0.00 0.00 Multi -Stage = Yes No No No Slope (%) = 2.14 0.00 0.00 n/a N-Value = .013 .013 .013 n/a Orifice Coeff. = 0.60 0.60 0.60 0.60 Exfil.(inlhr) = 0.000 (by Wet area) Multi -Stage = n/a Yes No No TW Elev. (ft) = 0.00 Note: Culvert/Orifice outflows are analyzed under inlet (ic) and outlet (oc) control. Weir risers checked for orifice conditions (ic) and submergence (s). Stage (ft) Stage / Storage Elev (ft) 10.00 8.00 6.00 4.00 2.00 0.00 1065.00 1063.00 1061.00 1059.00 1057.00 1055 00 0 30,000 60,000 90,000 120,000 150,000 180,000 - Storage Storage (cuft) L V O T T GV E O N O N O Q 00 7 O > Im2 W 0 O � N � N z a m o � Cl) CD o 0 0 t3 o o a co in U U� p o 0 o to t o m Rio � CL Lo 'i- C? 8— _� OT e2 O O ECL t O 7 > O N Cv o = m w a LL � � Q a p > � sa N N 'S O d v_Y > 0 or LL z 0 0 LV O O > N O O rs' 7 Q Cp z O CL w n r IN 0 7to tf` IN O 1 I I I _O 0- \ \ k � � � z 0 a. , �i