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HomeMy WebLinkAbout20070231 Ver 1_Stormwater Info_2007090510133 Sherrill Boulevard, Suite 200 Knoxville, TN 37932 (865)637-2810 (865) 673-8554 Fax VIA Mail o~-p~,~t TO: Annette Lucas, Environmental Engineer III DATE: NC Division of Water Quality FILE NO. 2321 Crabtree Boulevard Raleigh, NC 27604 B •/'''"~ BARGE ,~~I~~C WAG[3ONER 1\ SUMNER & CANNON, INC. September 4, 2007 3323801 SUBJECT: 07-0231 Stormwater Management Package, Honda Aircraft Co., Greensboro TRANSMITTED HEREWITH ARE THE FOLLOWING: a~~~~~~~ s~P ~ ~- zoo ~ °~"~-w~rF ~:4arro ;r~~,°~~irr ~RAA-Cy NO. COPIES DATE DESCRIPTION 1 9/04/07 401 Extended D Detention Worksheet 1 8/30/07 Stormwater Detention Pond Calculations 1 8/27/07 Civil Plan Sheets, % Size REMARKS Information as requested. Please contact our office with any comments or questions. COPY TO: File BARGE, WAGGONER, SUMNERAND CANNON, INC. BY ~~ Boles F:\33\33238\3323801\CivilWnnetteLucas 3323801 tm001.doc 1 1 1 1 1 1 1 1 1 t 1 1 1 ~ ~~~~~~ SAP 5 - 2007 DEPIR -WAVER QUALITY WETIANQS a4Q STOftMt+!ATER BRANCH August 29, 2007 Revision 7 CONSTRUCTION SITE STORMWATER DETENTION POND CALCULATIONS SOUTHWEST POND For HONDA AIRCRAFT COMPANY NEW CORPORATE CAMPUS ` ~ CARPI '~ ' SEAL ••lJ Z 69 y ~ 7. ~., qN E i~ ``.. Prepared For: American Honda Motor Company, Inc. 6430 Ballinger Road Greensboro, NC 27410 Prepared By: Barge, Waggoner, Sumner and Cannon, Inc. 10133 Sherrill Boulevard, Suite 200 Knoxville, Tennessee 37932 BWSC 33238-01 Project No. DWQ ~~~~Z3 DIVISION OF WATER QUALITY 401 EXTENDED DRY DETENTION BASIN WORKSHEET DWQ Stormwater Management Plan Review: At a minimum, a complete Stormwater management plan submittal includes a worksheet for each BMP, design calculations, plans and specifications showing all BMPs and outlet structure details, a detailed drainage plan and a fully executed operation and maintenance agreement. An incomplete submittal package will result in a request for additional information and will substantially delay final review and approval of the project PROJECT INFORMATION (please complete the following information): Project Name Contact Person ~O.nOa I¢~rCro.t'~ ~C~~•i~7~ l7~'CQ...S~OO~~ ~C" yVwt~.» rNa~.s ~; ~E. Phone Number: For projects with multiple basins, specify which basin this workshee_ t applies to:_ Drainage Area:19' acres Percent Impervious Area:_$ II. REQUIRED ITEMS CHECKLIST - •c~i v The following checklist outlines design requirements per the Stormwater Best Management Practices Manual (N.C. Department of Environment, Health and Natural Resources, November 1995) and Administrative Code Section: 15 A NCAC 2H .1008. Initial in the space provided to indicate the following design requirements have been met and supporting documentation is attached. If a requirement has not been met, attach an explanation of why. Applicants Initials _Either capture runoff from 1 yr., 24 hour storm and release over a 48 hour period, or' s~~ Ca/c» la'~• aw.-s / capture runoff from 1 inch storm and draw down over a period of 2 to 5 days. Please provide routing for 1 yr. 24 hr. event or volume from 1 inch rain / The basin length to width ratio is greater than 3:1. -The basin side slopes are no steeper than 3:1. / A small permanent pool at outlet orifice is provided to reduce clogging. An emergency drain to completely empty the basin is provided. U~ F i2cq,w:~ ~~c.a- e ~• l c~-(~..F-t"as Vegetation plan prepared is specified on plans. SEu:. S~es~ ~~~-~-*tO~S Basin to be stabilized within 14 days of construction is specified.Scc. ~.ec.~~'; c.p..{~~°^t5 ~ Sediment storage (20% of detention volume) in addition to detention volume is provided. r12,S'i Z ~».>Ft• excess / Inlet and outlet erosion control measures to prevent scour are provided. / Additional treatment to meet the 85% TSS removal efficiency is provided. / Access for clean-out and maintenance is provided. ~/ Inlet plunge pool or other energy dissipation is provided. /' Forebay is provided to capture sediment and minimize clean-out problems. S-.st do sf+-»~ ~'"`s. / Uncompacted natural soils are utilized to promote vegetation and reduce sedimentation. /' Seasonal high water table is at least 1 foot below bottom of basin. r If used as a temporary sediment basin, plans indicate clean-out prior to final operation. A site specific operation and maintenance plan with the following provisions is provided kj;~ ~e ~~o,,~ ~,~~, ~- 1a.1-c¢.. ~(~e . The 0&M agreement is signed by the responsible party and notarized. ~~~ r I t 1 1 Existing Conditions The existing site conditions were determined from a site field survey by McKim and Creed Surveyors and were supplied to BWSC by the developer. The approximately 80 acre site is a previously undeveloped lease parcel owned by the Piedmont Triad Airport Authority that is southeast and immediately adjacent to the Piedmont Triad International Airport. The site was previously used as pasture and forest. Soils map information was from the U.S. Department of Agriculture, Natural Resources Conservation Service web site (http://websoilsurvey.nres.usda.gov/app/WebSoilSurve ~}_aspx). A copy of the soils mapping is included. The soil survey shows primarily sandy clay loams which are classed as type C soils by for the SCS method. Proposed Conditions The site is proposed to be used as an aircraft research and development (R&D), and production facility. The current planned facility will contain a corporate office building and a R&D facility. The production facility is planned for a future phase. The site topography for the area planned for the offices and R&D building slopes to the southwest to an unnamed tributary of Horse Pen Creek. This area will drain through a piped collection system, into a detention pond and to the stream. The pond is intended to serve only this phase of the development. The future production facility area drains to the southeast to another unnamed tributary of Horse Pen Creek. The drainage for the production facility area has not been designed. Methods and Assumptions The hydrology and hydraulics were simulated in the Bentley CivilStorm software, V8 XM Edition. An SCS approach was used for the curve numbers and times of concentration. All catchbasins were assumed to be full capture type with no bypass assumed. Structure head losses were calculated using an HEC-22 approach. The detention pond was designed as a dry pond in order to avoid classification by the Federal Aviation Administration as a hazardous wildlife attractant (Section 3, FAA Advisory Circular AC No. 150/5200-33) and the resulting wildlife hazard mitigation techniques. Results The stage-storage relationship for the detention pond was calculated using Microsoft Excel and an average end area approach. Data and a graph are enclosed. The required 1 year storm storage volume for water quality was calculated using Mathcad v13 by Mathsoft Engineering and Education, Inc. The volume required was 42,771 cubic feet and corresponds to an elevation of 852.70 in the proposed pond. The pond surface area at this elevation was calculated at 22,733.5 square feet. Using the approach from page 60 of the City of Greensboro Stormwater Management Manual and assuming a 90% desired removal efficiency, a particle size of 4.4 microns was calculated as the minimum particle size meeting the 90% removal efficiency. 1 1 1 ear 2 ear 10 ear 25 ear 100 ear Pre-Development Flow, cfs 21.08 39.88 90.59 123.41 174.81 Post-Development Flow, cfs 13.11 25.84 66.10 98.45 142.85 Pond Water Surface Elev., ft 853.37 854.02 854.98 855.29 855.72 Freeboard, ft 4.63 3.98 3.02 2.71 2.28 Additionally, the one year event storm was routed and results are included for an extended period of 5 days. The calculated water surface elevations in the pond are 850.03 and 849.69 at the start of the fourth day and the fifth day respectively. Both of these elevations are above the 849.50 invert of the 2" outlet. Closer review shows the ' pond at 849.69 at around 4.8 days which is assumed to be the final drain down point. 1 1 1 1 1 1 1 1 Soil Map-Guilford County, North Carolina N Meters A 0 100 200 400 600 Feet 0 450 900 1,800 2,7D0 ~~pA Natural Resources Web Soil Survey 2.0 8!1712007 Conservation Service National Cooperative Soil Survey Page 1 of 3 r ^r rr rr rr r~ r r r rr rr Ir rr rr r~ 01~ rr r rr Soil Map-Guilford County, North Carolina MAP LEGEND MAP INFORMATION Area of Interest (AOI) ,(~ very Stony spot Original soil survey map sheets were prepared at publication scale. Area of Interest (A01) . t S t Viewing scale and printing scale, however, may vary from the ~ We po original. Please rely on the bar scale on each map sheet for proper Soils ~ Other map measurements. ,... _ Soil Map Units Special Line Features Source of Map: Natural Resources Conservation Service Special Point Features Gully Web Soil Survey URL: http://websoilsurvey.nres.usda.gov rty Blowout f Coordinate System: UTM Zone 17N Short Steep Slope ~ '' ® Borrow Pit This product is generated from the USDA-NRCS certified data as of . - Other the version date(s) listed below. X Clay Spot Political Features Soil Survey Area: Guilford County, North Carolina ~ Closed Depression Municipalities Survey Area Data: Version 9, Jan 19, 2007 ,~ Gravel Pit Cities Date(s) aerial images were photographed: 1993 Gravelly Spot ~ Urban Areas The orthophoto or other base map on which the soil lines were Landfill water Features compiled and digitized probably differs from the background Oceans imagery displayed on these maps. As a result, some minor shifting ~ Lava Flow of map unit boundaries may be evident. ,~ Marsh r-•.+ Streams and Canals ~ Mine or Quarry Transportation +++ Rails ~ Miscellaneous Water Roads Perennial Water ~,~,,,, interstate Highways yr Rock Outcrop ,,,,, US Routes + Saline Spot State Highways .. Sandy Spot r.v Local Roads Severely Eroded Spot Other Roads ,l} Sinkhole ]~y Slide or Slip Sodic Spot Spoil Area ~ Stony Spot Natural Resources Web Soil Survey 2.0 8/17/2007 Conservation Service National Cooperative Soil Survey Page 2 of 3 Soil Map-Guilford County, North Carolina 1 Map Unit Legend Guilford County, North Carolina (NC081) Map Unit Symbol Map Unit Name '`.Acres in AOf Percent of AOC CcC Cecil sandy loam, 6 to 10 percent slopes 2.4 0.4% Ce62 Cecil sandy clay loam, 2 to 6 percent slopes, eroded 7.4 1.3% CeC2 Cecil sandy clay loam, 6 to 10 percent slopes, eroded 0.2 0.0% Ch Chewacla sandy loam 7.7 1.3% Co Congaree loam 41.0 7.0% En6 Enon fine sandy loam, 2 to 6 percent slopes 6.0 1.0% EnC Enon fine sandy loam, 6 to 10 percent slopes 13.7 2.3% EnD Enon fine sandy loam, 10 to 15 percent slopes 4.9 0.8% Ir6 Iredell fine sandy loam, 0 to 4 percent slopes 21.2 3.6% McD2 Madison clay loam, 10 to 15 percent slopes, eroded 5.6 1.0% McE2 Madison clay loam, 15 to 25 percent slopes, eroded 8.5 1.4% Mh62 Mecklenburg sandy clay loam, 2 to 6 percent slopes, eroded 235.7 40.3% MhC2 Mecklenburg sandy clay loam, 6 to 10 percent slopes, eroded 113.0 19.3% Ur Urban land 117.1 20.0% W Water 0.8 0.1 Totals for Area of Interest (AO1) 1 1 585.4 100.0% U~~ Natural Resources Web Soil Survey 2.0 8/17/2007 Conservation Service National Cooperative Soil Survey Page 3 of 3 1 1 1 1 1 1 Stage-Storage Data for Left Detention Pond, Honda Aeronautics, Greensboro, NC Elevation Contour Area (sq ft) Storage (cu.ft.) Cum. Storage (cu.ft.) 849.5 1781 0.0 0.0 850 4339.2 1530.1 1530.1 851 13504.9 8922.1 10452.1 852 21282.6 17393.8 27845.9 853 23355.3 22319.0 50164.8 854 25484.5 24419.9 74584.7 855 27670.2 26577.4 101162.1 856 29912.5 28791.4 129953.4 857 32211.3 31061.9 161015.3 858 34566.6 33389.0 194404.3 Stage-Storage Data for Detention Pond, Honda Aeronautics, Greensboro, NC 200000 180000 160000 1 1 1 1 140000 .-, ~ 120000 c ~= 100000 m R .0 80000 N 60000 40000 20000 849 0 ! * ~` ' 850 851 852 853 854 855 856 857 858 Elevation Stuart Hen P.E. Honda Aircraft Facilit ,Greensboro, NC 1 of 3 ry, Y 8/24/2007 33238-01 PondCalcs_rev1.xmcd 1 First flush basin calculation 849.5 0 Find Volume of Rainfall .area of site is: Area := 14.06•acre % impervious I := 85 850 1530.1 by Schuler Method: R~ := 0.05 + 0.009•I R~ = 0.815 851 10452.1 first flush basin volume is: Vol := R~•r•Area Vol = 41595.8 ft3 852 27845.9 853 50164.8 Find elevation for required volume input data to matrix: Stage Storage :_ _ `1) (~ 854 74584.7 n := rows(Stage_Storage) Y := Stage_Storage Set variables: X := Stage_Storage 8S5 101162.1 enter degree of polynomial to fit: k := 4 856 129953.4 t number of data points: n = 10 regress data: z := regress(x,Y,k) g57 161015.3 polynomial fitting function: fit(x) := interp(z,X,Y,x) Set variable: coeffs := submatrix(z, 3 , length(z) - 1, 0, 0) 858 194404.3 coefficient values are coeffsT = (1.62 x 1013 -7.581 x 1010 1.33 X 108 -1.037 x 105 30.326 ) 2 ~(fit(X) - mean(Y)) R2 value: Plots 2.105 1.8.105 ' 1.6.105 S 1.4 •10 1 2 •105 w . U 1 •105 0 8 .104 6.104 1 4.104 2.104 = 0.99998295 ~(Y - mean(Y))2 Degrees of freedom: n - k -1 = 5 Polynomial Regression of Y on X 849 849.5 850 850.5 851 851.5 852 852.5 853 853.5 854 854.5 855 855.5 856 856.5 857 857.5 858 Elevation (in feet) ~- -1- X-Y data ' Least-squares fit Stuart Hen P.E. ry~ ' 8/24/2007 500 400 ' 300 200 100 1 0 -100 X00 -300 -400 -500 Honda Aircraft Facility, Greensboro, NC 33238-01 Residual Plot 2of3 PondCalcs_rev1.xmcd 849 850 851 852 853 854 855 856 857 858 first flush volume req'd. (see calc. above): vo1 = 41595.81 •ft3 remove units: vo1 := vol ft3 guess value for elevation: c := 852 ToL := 10 12 solve for elevation: Given vo1 = interp(z,x,Y,c) c < 855 ' c := Find(c) c = 852.647869 therefore, use: fit(vol) := interp(z, x, Y,16.789~ fit(vol) = 1.5.1013 therefore, use: fit(vol) := interp~z,x,Y,852.7~ fit(vol) = 42771.17 Stage/storage relationship for pond shows required volume at approx. elevation of 852.65. Therefore, the volume provided at elev. 852.7, 42771.17 cubic feet, is more than required. Stuart Hen P.E. Honda Aircraft Facility, Greensboro, NC 3 of 3 ry, 8/24/2007 33238-01 PondCalcs_rev1.xmcd 3 define constants: fi's := ft cfs := ft s s vo1 := fit(vol)•ft3 vol = 42771.17 ft3 required 1 year storm volume (see calculation above) ' and surface area at elevation 852.7 22733.5•ft2 p ~ :_ yol Q° = 0.495 cfs from page 60 of City of Greensboro Stormwater Management Manual Q° :_ 24•hr set desired trap efficiency: E := 90•% set guess value for particle settling velocity: w := 0.0004• ft s calculate particle settling velocity provided in pond for 90% efficiency: Given ' ~ _ -Q° • ln(1 - E) from page 60 of City of Greensboro Stormwater Management Manual w w := Find(w) w = 0.00005 fps set specific weight and kinematic viscosity for water at 60 degrees F. r 2 yf:= 62.37• ib µ := 2.359.10 5• tb•s ~ := 1.217.10 5• ft ft3 ft2 s set particle specific gravity (quartz assumed): sG := 2.65 set guess value for particle size: dia := 20•micron calculate 90% efficiency particle size based on pond settling velocity provided: Given 1 dia2• Stokes relationship, eqn. 7.4, Design Hydrology and Sedimentology for w = -• g•(sG - 1~ Small Catchments, C.T. Haan, B.J. Barfield and J.C. Hayes, Academic 18 ~ Press, Inc., San Diego, CA, 1994. dia := Find(dia) dia = 4.384 micron 5 microns is break between silt & clay by AASHTO T-88 check that Reynolds number < 0.5 eqn. 7.3, Design Hydrolo~y and Sedimentolo~ for Small ' w•dia Catchments, C.T. Haan, B.J. Barfield and J.C. Hayes, Re '= 5.926 x 10 5 v ~ = Academic Press, Inc., San Diego, CA, 1994. ' therefore, pond will collect sediment down to 4.4 microns at 90%. or greater efficiency 1 1 1 1 1 1 1 1 1 1 1 1 1 1 Control Structure Detailed Report: Control Structure <General> ID 204 Label Control Structure Outlet Structure Maximum Iterations 30 Minimum Hw Tolerance 0.01 ft Maximum Hw Tolerance 0.50 ft Minimum Tw Tolerance 0.01 ft Maximum Tw Tolerance• 0.50 ft Minimum Q Tolerance 0.001 ft'/s Maximum Q Tolerance 10.000 ft'/s Aircraft_Left_PostDev2.csd Bentley Systems, Inc. Haestad Methods Solution Center 8/24/2007 27 Siemon Company Drive Suite 200 W Watertown, CT 06795 USA +t_203-755-1666 Bentley CivilStorm V8 XM Edition [08.09.023.25] Page 1 of 2 1 1 1 1 1 1 1 1 1 1 1 Control Structure Detailed Report: Control Structure Outlet Structure Orifice Flow Direction Forward Flow Only Elevation 852.70 ft # of Openings 2 Orifice Coefficient 0.6 Orifice Circular Orifice Orifice Diameter 24.0 in Riser Flow Direction Forward Flow Only Elevation 854.70 ft Weir Coefficient 2.60 US Orifice Coefficient 0.6 Riser Stand Pipe Diameter 60.0 in Transition Elevation 0.00 ft Transition Height 0.00 ft K Reverse 1.0 Orifice Flow Direction Forward Flow Only Elevation 849.50 ft # of Openings 1 Orifice Coefficient p.9 Orifice Circular Orifice Orifice Diameter 2.0 in Aircraft_Left_PostDev2.csd Bentley Systems, Inc. Haestad Methods Solution Center 8/24/2007 27 Siemon Company Drive Suite 200 W Watertown, CT 06795 USA +t_203-755-1666 Bentley CivilStorm V8 XM Edition [08.09.023.25] Page 2 of 2 Stuart Hen , P.E. ry 8!24/2007 1 1 1 Honda Aeronautics, Greensboro, NC 33238-01 1 of 1 Left Pond Calculate volume of concrete for riser base in detention pond to prevent flotation. find volume of riser: riser invert and crest elevations are: crest := 854.7•ft invert := 849.5•ft riser inside diameter is: ID := 60•in ID riser outside diameter is: OD := ID + 2• - + 1 •in OD = 72•in 12 riser bottom thickness is: bottom := 8•in find possible riser submerged height H := crest -invert H = 5.2• ft 2 find riser inside volume: riser,,o1:= "•ID •x riservol = 102.1•ft3 4 ASSUMED: -weight of water = 62.41bs/cf set variable: y := 62.4• lb • ft3 find bouyant force: Fbouyant ~= riservol•Y Fbouyant = 6371.15 • lb ASSUMED: -weight of concrete = 40001bs/cu.yd. lb set variable: wconc := 4000• d3 change units: Y Find equivalent weight of concrete: lb Wequiv ~_ ~'~'conc - Y Wequiv = 85.75' 3 ft ASSUMED: -factor of safety = 1.1 Wequiv lb 1.1 ft3 find volume of concrete in riser bottom and sides: ~•OD2 bottom: vbottom ~_ •bottom 4 ~•OD2 7c•ID2 S1deS: 'sides ~_ - 'H 4 4 eliminate volume of holes: Vholes ~= 4 •~(2•in)2 + 2•(24•in)2]•6•in total: vriser ~= vbottom ~" Vsides - tholes ~'conc = 148.15 • lb ft3 vbottom = 18.85•ft3 'sides = 44.92•ft3 Wholes = 3.15 •ft3 vriser = 60.62• ft3 find required additional concrete volume: Fbouyant Volreq := W - wriser VolCeq = 21.11•ft3 ASSUMED: -additional volume attained by pouring concrete in bottom of base: Volreq Concretedepth ~_ n• ID2 4 Concretedepd, = 12.90•in Therefore, fill base with 18" min.concrete 1 1 1 1 1 1 1 i 1 1 1 1 Storm Event Detailed Report: 1 yr <General> Label 1yr Notes Rainfall Storm Event Data Type Depth Start Time 0.0 hours Increment 0.1 hours End Time 24.0 hours Storm Event Depth Type Cumulative Aircraft_Left_PostDev2.csd Bentley Systems, Inc. Haestad Methods Solution Center 8/16/2007 27 Siemon Company Drive Suite 200 W Watertown, CT 06795 USA +1-203-755-1666 Bentley CivilStorm V8 XM Edition [08.09.023.25] Page 1 of 7 1 1 1 1 1 1 1 1 1 1 1 1 1 Storm Event Detailed Report: 1 yr Rainfall Time (hours) 0.0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1.0 1.1 1.2 1.3 1.4 1.5 1.6 1.7 1.8 1.9 2.0 2.1 2.2 2.3 2.4 2.5 2.6 2.7 2.8 2.9 3.0 3.1 3.2 3.3 3.4 3.5 3.6 3.7 3.8 3.9 Aircraft_Left PostDev2.csd Bentley Systems, Inc. Haestad Methods Solution Center 8/16/2007 27 Siemon Company Drive Suite 200 W Watertown, CT 06795 USA +1-203-755-1666 Depth (in) 0.000 0.003 0.006 0.008 0.011 0.014 0.017 0.020 0.023 0.026 0.029 0.032 0.035 0.038 0.041 0.044 0.047 0.051 0.054 0.057 0.060 0.064 0.067 0.070 0.074 0.077 0.081 0.084 0.087 0.091 0.095 0.098 0.102 0.105 0.109 0.113 0.116 0.120 0.124 0.128 Bentley CivilStorm V8 XM Edition [08.09.023.25) Page 2 of 7 1 Storm Event Detailed Report: 1 yr Rainfall Time ('hours) 4.0 ' 4.1 4.2 4.3 4.4 4.5 ' 4.6 4.7 4.8 4.9 5.0 5.1 ' 5.2 5.3 5.4 5.5 5.6 5.7 5.8 5.9 ' 6.0 6.1 6.2 ' 6.3 6.4 6.5 ' 6.6 6.7 6.8 6.9 7.0 7.1 7.2 7.3 7.4 7.5 7.6 7.7 7.8 7.9 8.0 Aircraft_Left PostDev2.csd Bentley Systems, Inc. Haestad Methods Solution Center 8/16/2007 27 Siemon Company Drive Suite 200 W Watertown, CT 06795 USA +1-203-755-1666 Depth (n) 0.132 0.135 0.139 0.143 0.147 0.151 0.156 0.160 0.164 0.168 0.173 0.177 0.181 0.186 0.191 0.195 0.200 0.205 0.209 0.214 0.219 0.224 0.229 0.234 0.239 0.245 0.250 0.255 0.260 0.266 0.271 0.277 0.282 0.288 0.294 0.299 0.305 0.311 0.317 0.323 0.329 Bentley CivilStorm V8 XM Edition [08.09.023.25] Page 3 of 7 Storm Event Detailed ' Report: 1 yr Rainfall Time {hours) Depth (in) 8.1 0.335 8.2 0.341 8.3 0.348 8.4 0.355 ' 8.5 0.362 8.6 0.370 8.7 8.8 0.378 0.386 8.9 0.394 9.0 0.403 ' 9.1 0.412 9.2 0.420 ' 9.3 0.429 9.4 0.438 9.5 0.447 ' 9.6 0.456 9.7 0.465 9.8 0.475 ' 9.9 0.485 10.0 0.496 10.1 0.507 10.2 0.519 10.3 0.532 10.4 0.545 ' 10.5 0.559 10.6 0.574 10.7 0.590 ' 10.8 0.607 10.9 0.625 11.0 0.644 11.1 0.665 11.2 0.689 11.3 0.715 11.4 0.744 11.5 0.775 ' 11.6 0.841 11.7 0.971 11.8 1.180 11.9 1.556 12.0 1.817 12.1 1.869 Aircraft left_PostDev2.csd Bentley Systems, Inc. Haestad Methods Bentley CivilStorm V8 XM Edition Solution Center [08.09.023.25] 8/16/2007 27 Siemon Company Drive Suite 200 W Page 4 of 7 Watertown, CT 06795 USA +1-203-755-1666 1 1 1 1 1 1 1 1 1 1 1 1 1 1 Storm Event Detailed Report: 1 yr Rainfall Time (hours) 12.2 12.3 12.4 12.5 12.6 12.7 12.8 12.9 13.0 13.1 13.2 13.3 13.4 13.5 13.6 13.7 13.8 13.9 14.0 14.1 14.2 14.3 14.4 14.5 14.6 14.7 14.8 14.9 15.0 15.1 15.2 15.3 15.4 15.5 15.6 15.7 15.8 15.9 16.0 16.1 16.2 Aircraft_Left_PostDev2.csd Bentley Systems, Inc. Haestad Methods Solution Center 8/16/2007 27 Siemon Company Drive Suite 200 W Watertown, CT 06795 USA +1-203-755-1666 Depth (in) 1.914 1.954 1.987 2.014 2.037 2.059 2.079 2.098 2.115 2.132 2.147 2.162 2.176 2.189 2.202 2.214 2.225 2.236 2.247 2.257 2.267 2.276 2.286 2.295 2.304 2.313 2.322 2.330 2.339 2.347 2.355 2.362 2.370 2.377 2.384 2.391 2.398 2.405 2.411 2.417 2.424 Bentley CivilStorm V8 XM Edition [08.09.023.25] Page 5 of 7 1 1 i Y 1 1 Rainfall Aircraft Left_PostDev2.csd 8/16/2007 Storm Event Detailed Report: 1 yr Time (hours) Depth (n) 16.3 2.430 16.4 2.436 16.5 2.442 16.6 2.448 16.7 2.454 16.8 2.459 16.9 2.465 17.0 2.471 17.1 2.476 17.2 2.482 17.3 2.487 17.4 2.493 17.5 2.498 17.6 2.503 17.7 2.508 17.8 2.514 17.9 2.519 18.0 2.524 18.1 2.528 18.2 2.533 18.3 2.538 18.4 2.543 18.5 2.547 18.6 2.552 18.7 2.556 18.8 2.561 18.9 2.565 19.0 2.569 19.1 2.574 19.2 2.578 19.3 2.582 19.4 2.586 19.5 2.590 19.6 2.594 19.7 2.597 19.8 2.601 19.9 2.605 20.0 2.608 20.1 2.612 20.2 2.616 20.3 2.619 Bentley Systems, Inc. Haestad Methods Bentley CivilStorm V8 XM Edition Solution Center [08.09.023.25] 27 Siemon Company Drive Suite 200 W Page 6 of 7 Watertown, CT 06795 USA +1-203-755-1666 Storm Event Detailed i Report: 1 yr Rainfall Time (hours} 20.4 20.5 20.6 20.7 20.8 20.9 21.0 21.1 21.2 21.3 21.4 21.5 21.6 21.7 21.8 1 21.9 22.0 ' 22.1 22.2 22.3 22.4 22.5 22.6 22.7 22.8 22.9 23.0 23.1 23.2 23.3 23.4 23.5 23.6 23.7 23.8 23.9 24.0 Aircraft_Left_PostDev2.csd Bentley Systems, Inc. Haestad Methods Solution Center 8/16/2007 27 Siemon Company Drive Suite 200 W Watertown, CT 06795 USA +1-203-755-1666 Depth (in) 2.623 2.626 2.630 2.633 2.637 2.640 2.643 2.647 2.650 2.654 2.657 2.660 2.664 2.667 2.670 2.674 2.677 2.680 2.684 2.687 2.690 2.693 2.696 2.700 2.703 2.706 2.709 2.712 2.715 2.719 2.722 2.725 2.728 2.731 2.734 2.737 2.740 Bentley CivilStorm VS XM Edition [08.09.023.25] Page 7 of 7 1 1 1 1 1 1 1 1 1 f 1 1 1 1 1 1 Storm Event Detailed Report: 2yr <General> Label 2yr Notes Rainfall. Storm Event Data Type Depth Start Time 0.0 hours Increment 0.1 hours End Time 24.0 hours Storm Event Depth Type Cumulative Aircraft_Left PostDev2.csd Bentley Systems, Inc. Haestad Methods Solution Center 8/16/2007 27 Siemon Company Drive Suite 200 W Watertown, CT 06795 USA +1-203-755-1666 Bentley CivilStorm V6 XM Edition [08.09.023.25] Page 1 of 7 1 1 1 1 1 t 1 1 1 1 1 t 1 1 1 1 1 Storm Event Detailed Report: 2yr Rainfall Time (hours) 0.0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1.0 1.1 1.2 1.3 1.4 1.5 1.6 1.7 1.8 1.9 2.0 2.1 2.2 2.3 2.4 2.5 2.6 2.7 2.8 2.9 3.0 3.1 3.2 3.3 3.4 3.5 3.6 3.7 3.8 3.9 Aircraft_Left PostDev2.csd Bentley Systems, Inc. Haestad Methods Solution Center 8/16/2007 27 Siemon Company Drive Suite 200 W Watertown, CT 06795 USA +1-203-755-1666 Denth (ini 0.000 0.004 0.007 0.011 0.014 0.018 0.022 0.025 0.029 0.033 0.037 0.041 0.045 0.048 0.052 0.056 0.060 0.065 0.069 0.073 0.077 0.081 0.085 0.090 0.094 0.098 0.103 0.107 0.112 0.116 0.121 0.125 0.130 0.135 0.139 0.144 0.149 0.153 0.158 0.163 Bentley CivilStorm V8 XM Edition [08.09.023.25] Page 2 of 7 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 Rainfall Time (hours] Ai rcraft_Left_PostDev2. csd 8/16/2007 Storm Event Detailed Report: 2yr Depth (inj 4.0 0.168 4.1 0.173 4.2 0.178 4.3 0.183 4.4 0.188 4.5 0.193 4.6 0.199 4.7 0.204 4.8 0.209 4.9 0.215 5.0 0.221 5.1 0.226 5.2 0.232 5.3 0.238 5.4 0.243 5.5 0.249 5.6 0.255 5.7 0.261 5.8 0.268 5.9 0.274 6.0 0.280 6.1 0.286 6.2 0.293 6.3 0.299 6.4 0.306 6.5 0.312 6.6 0.319 6.7 0.326 6.8 0.333 6.9 0.340 7.0 0.346 7.1 0.354 7.2 0.361 7.3 0.368 7.4 0.375 7.5 0.382 7.6 0.390 7.7 0.397 7.8 0.405 7.9 0.412 8.0 0.420 Bentley Systems, Inc. Haestad Methods Bentley CivilStorm V8 XM Edition Solution Center [08.09.023.25] 27 Siemon Company Drive Suite 200 W Page 3 of 7 Watertown, CT 06795 USA +x_203-755-1666 t 1 1 1 1 1 1 1 1 Rainfall Ai rcraft_Left_PostDev2. csd 8/16/2007 Time (hours) Storm Event Detailed Report: 2yr 8.1 8.2 8.3 8.4 8.5 8.6 8.7 8.8 8.9 9.0 9.1 9.2 9.3 9.4 9.5 9.6 9.7 9.8 9.9 10.0 10.1 10.2 10.3 10.4 10.5 10.6 10.7 10.8 10.9 11.0 11.1 11.2 11.3 11.4 11.5 11.6 11.7 11.8 11.9 12.0 12.1 Bentley Systems, Inc. Haestad Methods Solution Center 27 Siemon Company Drive Suite 200 W Watertown, CT 06795 USA +1-203-755-1666 Depth (n) 0.428 0.436 0.445 0.454 0.463 0.473 0.482 0.493 0.503 0.514 0.526 0.537 0.548 0.559 0.571 0.582 0.594 0.607 0.620 0.633 0.648 0.663 0.679 0.696 0.714 0.733 0.753 0.775 0.798 0.822 0.849 0.880 0.913 0.950 0.990 1.074 1.240 1.508 1.988 2.320 2.387 Bentley CivilStorm V8 XM Edition [08.09.023.25] Page 4 of 7 1 1 r i Storm Event Detailed Report: 2yr Rainfall Time (hours) Depth (in) 12.2 2.445 12.3 2.496 12.4 2.538 12.5 2.573 12.6 2.602 12.7 2.630 12.8 2.656 12.9 2.680 13.0 2.702 13.1 2.723 13.2 2.743 13.3 2.762 13.4 2.780 13.5 2.797 13.6 2.813 13.7 2.828 13.8 2.843 13.9 2.857 14.0 2.870 14.1 2.883 14.2 2.895 14.3 2.908 14.4 2.920 14.5 2.932 14.6 2.943 14.7 2.955 14.8 2.966 14.9 2.977 15.0 2.987 15.1 2.998 15.2 3.008 15.3 3.018 15.4 3.027 15.5 3.037 15.6 3.046 15.7 3.055 15.8 3.063 15.9 3.072 16.0 3.080 16.1 3.088 16.2 3.096 Aircraft_Left_PostDev2.csd Bentley Systems, Inc. Haestad Methods Bentley CivilStorm V8 XM Edition Solution Center [08.09.023.25 8/16/2007 27 Siemon Company Drive Suite 200 W Page 5 of 7 Watertown, CT 06795 USA +1-203-755-1666 i Storm Event Detailed Report: 2yr Rainfall Time (hours) 16.3 16.4 16.5 16.6 16.7 16.8 16.9 17.0 17.1 17.2 17.3 17.4 1 17.5 17.6 17.7 17.8 17.9 18.0 18.1 18.2 18.3 18.4 18.5 18.6 18.7 18.8 18.9 1 19.0 19.1 19.2 19.3 19.4 19.5 19.6 19.7 19.8 19.9 20.0 20.1 20.2 20.3 Aircraft Left_PostDev2.csd Bentley Systems, Inc. Haestad Methods Solution Center 8/16/2007 27 Siemon Company Drive Suite 200 W Watertown, CT 06795 USA +1-203-755-1666 Depth (in) 3.104 3.111 3.119 3.127 3.134 3.142 3.149 3.156 3.163 3.170 3.177 3.184 3.191 3.198 3.204 3.211 3.217 3.224 3.230 3.236 3.242 3.248 3.254 3.260 3.265 3.271 3.277 3.282 3.288 3.293 3.298 3.303 3.308 3.313 3.318 3.323 3.327 3.332 3.337 3.341 3.346 Bentley CivilStorm V8 XM Edition [08.09.023.25] Page 6 of 7 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 Storm Event Detailed Report: 2yr Rainfall Time (hcu~s) 20.4 20.5 20.6 20.7 20.8 20.9 21.0 21.1 21.2 21.3 21.4 21.5 21.6 21.7 21.8 21.9 22.0 22.1 22.2 22.3 22.4 22.5 22.6 22.7 22.8 22.9 23.0 23.1 23.2 23.3 23.4 23.5 23.6 23.7 23.8 23.9 24.0 Aircraft Left PostDev2.csd Bentley Systems, Inc. Haestad Methods Solution Center 8/16/2007 27 Siemon Company Drive Suite 200 W Watertown, CT 06795 USA +1-203-755-1666 Depth (in) 3.350 3.355 3.359 3.363 3.368 3.372 3.377 3.381 3.385 3.390 3.394 3.398 3.403 3.407 3.411 3.415 3.419 3.424 3.428 3.432 3.436 3.440 3.444 3.448 3.453 3.457 3.461 3.465 3.469 3.473 3.477 3.481 3.484 3.488 3.492 3.496 3.500 Bentley CivilStorm V8 XM Edition [08.09.023.25] Page 7 of 7 Storm Event Detailed ' Report: 10yr <General> Label 10yr Notes Rainfall Storm Event Data Type Depth Start Time 0.0 hours Increment 0.1 hours End Time 24.0 hours Storm Event Depth Type Cumulative i 1 1 1 1 Aircraft_Left PostDev2.csd Bentley Systems, Inc. Haestad Methods Solution Center 8/16/2007 27 Siemon Company Drive Suite 200 W Watertown, CT 06795 USA +1-203-755-1666 Bentley CivilStomt V8 XM Edition [06.09.023.25] Page 1 of 7 Storm Event Detailed Report: 10yr Rainfall Time thours) 0.0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1.0 1.1 1.2 1.3 1.4 1.5 1.6 1.7 1.8 1.9 2.0 2.1 2.2 2.3 2.4 2.5 2.6 2.7 2.8 2.9 3.0 3.1 3.2 3.3 3.4 3.5 3.6 3.7 3.8 3.9 Aircraft_Left PostDev2.csd Bentley Systems, Inc. Haestad Methods Solution Center 8/16/2007 27 Siemon Company Drive Suite 200 W Watertown, CT 06795 USA +1-203-755-1666 Depth (in) 0.000 0.005 0.010 0.016 0.021 0.026 0.032 0.037 0.042 0.048 0.054 0.059 0.065 0.071 0.076 0.082 0.088 0.094 0.100 0.106 0.112 0.118 0.125 0.131 0.137 0.143 0.150 0.156 0.163 0.169 0.176 0.183 0.189 0.196 0.203 0.210 0.217 0.224 0.231 0.238 Bentley CivilStorm V8 XM Edition [08.09.023.25] Page 2 of 7 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 Storm Event Detailed Report: 10yr 'Rainfiall Time (hours) Depth (in) 4.0 0.245 4.1 .0.252 4.2 0.259 4.3 0.267 4.4 0.274 4.5 0.282 4.6 0.289 4.7 0.297 4.8 0.305 4.9 0.313 5.0 0.321 5.1 0.330 5.2 0.338 5.3 0.346 5.4 0.355 5.5 0.363 5.6 0.372 5.7 0.381 5.8 0.390 5.9 0.399 6.0 0.408 6.1 0.417 6.2 0.427 6.3 0.436 6.4 0.446 6.5 0.455 6.6 0.465 6.7 0.475 6.8 0.485 6.9 0.495 7.0 0.505 7.1 0.515 7.2 0.526 7.3 0.536 7.4 0.547 7.5 0.557 7.6 0.568 7.7 0.579 7.8 0.590 7.9 0.601 8.0 0.612 PostDev2.csd Bentley Systems, Inc. Haestad Methods Left Aircraft Bentley CivilStorm V8 XM Edition _ _ Solution Center [08.09.023.25] 8/16/2007 27 Siemon Company Drive Suite 200 W Page 3 of 7 Watertown, CT 06795 USA +1-203-755-1666 Storm Event Detailed ' Report: 10yr Rainfall Time (hours) 8.1 8.2 8.3 8.4 8.5 8.6 8.7 8.8 8.9 9.0 9.1 9.2 9.3 9.4 9.5 9.6 9.7 9.8 9.9 10.0 10.1 10.2 10.3 10.4 10.5 10.6 10.7 10.8 10.9 11.0 11.1 11.2 ' 11.3 11.4 11.5 11.6 11.7 11.8 11.9 12.0 ' 12.1 Aircraft_Left_PostDev2.csd Bentley Systems, Inc. Haestad Methods Solution Center ' 8/16/2007 27 Siemon Company Drive Suite 200 W Watertown, CT 06795 USA +1-203-755-1666 Depth (in) 0.623 0.635 0.648 0.661 0.674 0.689 0.703 0.718 0.734 0.750 0.766 0.782 0.799 0.815 0.831 0.848 0.866 0.884 0.903 0.923 0.944 0.966 0.990 1.014 1.040 1.068 1.098 1.129 1.163 1.198 1.238 1.282 1.331 1.385 1.443 1.565 1.807 2.197 2.896 3.381 3.478 Bentley CivilStorm V8 XM Edition [08.09.023.25] Page 4 of 7 Storm Event Detailed Report: 10yr Rainfall Time (hours] 12.2 ' 12.3 12.4 ' 12.5 12.6 12.7 12.8 12.9 13.0 13.1 13.2 13.3 13.4 13.5 13.6 13.7 13.8 13.9 ' 14.0 14.1 14.2 14.3 14.4 14.5 14.6 14.7 14.8 14.9 15.0 15.1 15.2 15.3 15.4 15.5 15.6 15.7 15.8 15.9 16.0 16.1 6.2 Aircraft_Left_PostDev2.csd Bentley Systems, Inc. Haestad Methods Solution Center ' 8/16/2007 27 Siemon Company Drive Suite 200 W Watertown, CT 06795 USA +1-203-755-1666 Depth (in) 3.563 3.637 3.698 3.749 3.792 3.832 3.870 3.905 3.937 3.968 3.997 4.024 4.050 4.075 4.098 4.121 4.142 4.163 4.182 4.201 4.219 4.237 4.255 4.272 4.289 4.305 4.322 4.337 4.353 4.368 4.383 4.397 4.411 4.425 4.438 4.451 4.464 4.476 4.488 4.500 4.511 Bentley CivilStorm VS XM Edition [08.09.023.25] Page 5 of 7 1 1 1 1 1 1 t 1 1 1 1 Storm Event Detailed Report: 10yr Rainfall Time (hours) Depth (in) 16.3 4.523 16.4 4.534 16.5 4.545 16.6 4.556 16.7 4.567 16.8 4.578 16.9 4.588 17.0 4.599 17.1 4.609 17.2 4.620 17.3 4.630 17.4 4.640 17.5 4.650 17.6 4.659 17.7 4.669 17.8 4.678 17.9 4.688 18.0 4.697 18.1 4.706 18.2 4.715 18.3 4.724 18.4 4.733 18.5 4.741 18.6 4.750 18.7 4.758 18.8 4.766 18.9 4.775 19.0 4.783 19.1 4.790 19.2 4.798 19.3 4.806 19.4 4.813 19.5 4.820 19.6 4.828 19.7 4.835 19.8 4.842 19.9 4.849 20.0 4.855 20.1 4.862 20.2 4.868 20.3 4.875 Aircraft_Left PostDev2.csd Bentley Systems, Inca Haestad Methods Bentley CivilStorm V8 XM Edition Solution Center [08.09.023.25] 8/16/2007 27 Siemon Company Drive Suite 200 W Page 6 of 7 Watertown, CT 06795 USA +1-203-755-1666 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 Storm Event Detailed Report: 10yr Rainfall Time (hours) 20.4 20.5 20.6 20.7 20.8 20.9 21.0 21.1 21.2 21.3 21.4 21.5 21.6 21.7 21.8 21.9 22.0 22.1 22.2 22.3 22.4 22.5 22.6 22.7 22.8 22.9 23.0 23.1 23.2 23.3 23.4 23.5 23.6 23.7 23.8 23.9 24.0 Aircraft_Left_PostDev2.csd Bentley Systems, Inc. Haestad Methods Solution Center 8/16/2007 27 Siemon Company Drive Suite 200 W Watertown, CT 06795 USA +1-203-755-1666 Depth (in) 4.882 4.888 4.895 4.901 4.907 4.914 4.920 4.927 4.933 4.939 4.946 4.952 4.958 4.964 4.970 4.977 4.983 4.989 4.995 5.001 5.007 5.013 5.019 5.025 5.031 5.037 5.043 5.048 5.054 5.060 5.066 5.072 5.077 5.083 5.089 5.094 5.100 Bentley CivilStorm VS XM Edition [08.09.023.25] Page 7 of 7 Storm Event Detailed Report: 100yr <General> Label 100yr Notes Rainfall Storm Event Data Type Depth Start Time 0.0 hours Increment 0.1 hours End Time 24.0 hours Storm Event Depth Type Cumulative Aircraft_Left_PostDev2.csd Bentley Systems, Inc. Haestad Methods Bentley CivilStorm V8 XM Edition Solution Center [08.09.023.25] 8/16/2007 27 Siemon Company Drive Suite 200 W Page 1 of 7 Watertown, CT 06795 USA +1-203-755-1666 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 Storm Event Detailed Report: 100yr Rainfall Time (hours) 0.0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1.0 1.1 1.2 1.3 1.4 1.5 1.6 1.7 1.8 1.9 2.0 2.1 2.2 2.3 2.4 2.5 2.6 2.7 2.8 2.9 3.0 3.1 3.2 3.3 3.4 3.5 3.6 3.7 3.8 3.9 Aircraft_Left_PostDev2.csd Bentley Systems, Inc. Haestad Methods Solution Center 8/16/2007 27 Siemon Company Drive Suite 200 W Watertown, CT 06795 USA +1-203-755-1666 Depth (in) 0.000 0.008 0.015 0.023 0.031 0.038 0.046 0.054 0.062 0.071 0.079 0.087 0.095 0.104 0.112 0.121 0.130 0.138 0.147 0.156 0.165 0.174 0.183 0.192 0.202 0.211 0.220 0.230 0.239 0.249 0.259 0.269 0.278 0.288 0.298 0.308 0.319 0.329 0.339 0.350 Bentley CivilStorm VS XM Edition [08.09.023.25] Page 2 of 7 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 Storm Event Detailed Report: 100yr Rainfall Time (hours) Depth (in) 4.0 0.360 4.1 0.371 4.2 0.381 4.3 0.392 4.4 0.403 4.5 0.414 4.6 0.426 4.7 0.437 4.8 0.449 4.9 0.461 5.0 0.473 5.1 0.485 5.2 0.497 5.3 0.509 5.4 0.522 5.5 0.534 5.6 0.547 5.7 0.560 5.8 0.573 5.9 0.587 6.0 0.600 6.1 0.614 6.2 0.627 6.3 0.641 6.4 0.655 6.5 0.669 6.6 0.684 6.7 0.698 6.8 0.713 6.9 0.728 7.0 0.742 7.1 0.758 7.2 0.773 7.3 0.788 7.4 0.804 7.5 0.819 7.6 0.835 7.7 0.851 7.8 0.867 7.9 0.884 8.0 0.900 Aircraft_Left PostDev2.csd Bentley Systems, Inc. Haestad Methods Bentley CivilStorm VS XM Edition Solution Center [08.09.023.25] 8/16/2007 27 Siemon Company Drive Suite 200 W Page 3 of 7 Watertown, CT 06795 USA +1-203-755-1666 1 Storm Event Detailed ' _ __ Report: 100yr Rainfall Time hours' ,. ( J 8.1 8.2 8.3 8.4 ' 8.5 8.6 8.7 8.8 8.9 ' 9.0 9.1 9.2 ' 9.3 9.4 9.5 9.6 9.7 9.8 ' 9.9 10.0 10.1 10.2 10.3 ' 10.4 10.5 10.6 ' 10.7 10.8 10.9 ' 11.0 11.1 11.2 11.3 11.4 11.5 11.6 11.7 ' 11.8 11.9 12.0 12.1 Aircraft_Left PostDev2.csd Bentley Systems, Inc. Haestad Methods Solution Center 8/16/2007 27 Siemon Company Drive Suite 200 W Watertown, CT 06795 USA +1-203-755-1666 Depth (in) 0.917 0.935 0.953 0.972 0.992 1.013 1.034 1.056 1.079 1.102 1.126 1.151 1.174 1.198 1.223 1.247 1.273 1.300 1.328 1.357 1.388 1.421 1.456 1.492 1.530 1.570 1.614 1.660 1.710 1.762 1.820 1.885 1.957 2.036 2.122 2.301 2.658 3.231 4.259 4.972 5.115 Bentley CivilStorm V8 XM Edition [08.09.023.25] Page 4 of 7 Storm Event Detailed Report: 100yr Rainfall Time (hcurs; Depth (n) 12.2 5.240 12.3 5.348 12.4 5.439 12.5 5.513 12.6 5.576 12.7 5.635 12.8 5.691 12.9 5.742 13.0 5.790 13.1 5.835 13.2 5.877 13.3 5.918 13.4 5.956 13.5 5.993 13.6 6.027 13.7 6.060 13.8 6.092 13.9 6.122 14.0 6.150 14.1 6.178 14.2 6.204 14.3 6.231 14.4 6.257 14.5 6.282 14.6 6.307 14.7 6.331 14.8 6.355 14.9 6.379 15.0 6.401 15.1 6.424 15.2 6.445 15.3 6.466 15.4 6.487 15.5 6.507 15.6 6.527 15.7 6.546 15.8 6.564 15.9 6.583 16.0 6.600 16.1 6.617 16.2 6.634 Aircraft_Left_PostDev2.csd Bentley Systems, Inc. Haestad Methods Bentley CivilStorm V8 XM Edition Solution Center [08.09.023.25] 8/16/2007 27 Siemon Company Drive Suite 200 W Page 5 of 7 Watertown, CT 06795 USA +1-203-755-1666 Storm Event Detailed Report: 100yr Rainfall Time (hears) 16.3 16.4 16.5 16.6 16.7 16.8 16.9 17.0 17.1 17.2 17.3 17.4 17.5 17.6 17.7 17.8 17.9 18.0 18.1 18.2 18.3 18.4 18.5 18.6 18.7 18.8 18.9 19.0 19.1 19.2 19.3 19.4 19.5 19.6 19.7 19.8 19.9 20.0 20.1 20.2 20.3 Aircraft_Left PostDev2.csd Bentley Systems, Inc. Haestad Methods Solution Center 8/16/2007 27 Siemon Company Drive Suite 200 W Watertown, CT 06795 USA +1-203-755-1666 Depth (in) 6.651 6.667 6.684 6.700 6.716 6.732 6.748 6.763 6.778 6.793 6.808 6.823 6.838 6.852 6.866 6.880 6.894 6.908 6.921 6.934 6.947 6.960 6.973 6.985 6.997 7.009 7.021 7.033 7.045 7.056 7.067 7.078 7.089 7.100 7.110 7.120 7.130 7.140 7.150 7.159 7.169 Bentley CivilStorm V8 XM Edition [08.09.023.25] Page 6 of 7 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 Storm Event Detailed Report: 100yr Rainfall Time {hours) 20.4 20.5 20.6 20.7 20.8 20.9 21.0 21.1 21.2 21.3 21.4 21.5 21.6 21.7 21.8 21.9 22.0 22.1 22.2 22.3 22.4 22.5 22.6 22.7 22.8 22.9 23.0 23.1 23.2 23.3 23.4 23.5 23.6 23.7 23.8 23.9 24.0 Aircraft_Left_PostDev2.csd Bentley Systems, Inc. Haestad Methods Solution Center 6/16/2007 27 Siemon Company Drive Suite 200 W Watertown, CT 06795 USA +1-203-755-1666 Depth (in) 7.179 7.188 7.198 7.207 7.217 7.226 7.236 7.245 7.254 7.264 7.273 7.282 7.291 7.300 7.309 7.318 7.327 7.337 7.345 7.354 7.363 7.372 7.381 7.390 7.398 7,407 7.416 7.424 7.433 7.441 7.450 7.458 7.467 7.475 7.483 7.492 7.500 Bentley CivilStorm VS XM Edition [08.09.023.25] Page 7 of 7 1 853.5 ,. 853.0 .. 852.5 a~ 852.0 (~ ~ 851.5 .~ 851.0 m 850.5 850.0 849.5 6.0 5.0 ~ 4.0 3.0 0 ~ 2.0 0 ~' 1.0 ' 0.0 60000 1 50000 ~ 40000 a~ ~ 30000 > 20000 10000 1 0 1 Year Pond Data n 0 12 24 36 48 60 72 Time (hours) 84 96 108 120 1 t 1 Honda Aeronautics, Greensboro, NC Catchment Table Label Outflow Node Area (sq.ft.) Tc (min) Composite SCS CN Peak Flow (cfs) Total Runoff Vol. (cu.ft.) CM-2 25: CB-4 10977.1 1.2 98.0 0.88 2294.8 CM-3 26: CB-5 10715.8 1.3 98.0 0.86 2238.3 CM-4 27: CB-6 8799.1 1.3 98.0 0.71 1840.4 CM-5 36: CB-15 8755.6 1.4 98.0 0.70 1832.3 CM-6 35: CB-14 8755.6 1.4 98.0 0.70 1833.5 CM-7 34: CB-13 6664.7 1.4 98.0 0.53 1392.4 CM-8 33: CB-12 4399.6 2.4 98.0 0.35 917.9 CM-9 33: CB-12 32713.6 6.3 74.0 0.79 2038.6 CM-10 33: CB-12 9104.0 2.8 98.0 0.73 1902.8 CM-11 30: CB-9 10062.4 1.6 98.0 0.81 2103.4 CM-12 28: CB-7 13024.4 3.4 83.1 0.58 1347.4 CM-13 29: CB-8 17598.2 4.0 90.1 1.10 2572.7 CM-14 37: CB-16 28880.3 4.1 84.9 1.42 3279.6 CM-15 38: CB-17 15768.7 4.1 88.4 0.92 2126.0 CM-16 32: CB-11 6011.3 1.5 98.0 0.48 1257.5 CM-17 31: CB-10 5314.3 1.4 98.0 0.43 1107.2 CM-18 23: CB-3 5619.2 1.7 98.0 0.45 1169.7 CM-19 39: CB-18 4704.5 1.3 98.0 0.38 981.9 CM-20 40: CB-19 9626.8 2.5 92.0 0.65 1540.8 CM-21 41: CB-20 11456.3 2.3 91.1 0.75 1764.5 CM-22 21: CB-2 9104.0 2.1 90.4 0.58 1359.6 CM-23 19: CB-1 8102.2 1.8 92.8 0.57 1364.1 CM-24 61: CB-23 8320.0 2.3 98.0 0.67 1738.8 CM-25 60: CB-22 10759.3 1.9 98.0 0.87 2272.2 CM-26 59: CB-21 35937.0 2.8 95.1 2.69 6605.3 CM-27 84: CB-26 8799.1 1.3 98.0 0.71 183 8.7 CM-28 63: CB-25 17467.6 3.1 86.1 0.91 2107.5 CM-29 62: CB-24 38071.4 2.2 90.7 2.29 5370.9 CM-30 138: CB-28 2265.1 1.1 89.0 0.14 312.5 CM-31 175: MH-20 22389.8 4.6 98.0 1.79 4681.9 CM-32 176: MH-21 22389.8 4.6 98.0 1.79 4681.9 CM-33 167: MH-18 3964.0 2.1 98.0 0.32 829.3 CM-34 168: MH-19 3964.0 2.1 98.0 0.32 826.5 CM-35 177: MH-22 22389.8 4.6 98.0 1.79 4681.9 CM-36 159: MH-14 22912.6 4.6 98.0 1.84 4791.2 CM-37 160: MH-15 22912.6 4.6 98.0 1.84 4791.2 CM-38 161: MH-16 22912.6 4.6 98.0 1.84 4791.2 CM-39 162: MH-17 22912.6 4.6 98.0 1.84 4791.2 CM-40 156: MH-13 2265.1 1.4 98.0 0.18 468.9 CM-41 155: MH-12 2265.1 1.4 98.0 0.18 471.3 CM-42 153: MH-11 2265.1 1.4 98.0 0.18 468.9 1 t 1 CM-43 188: CS-2 139827.6 9.2 74.0 3.17 8712.4 CM-44 191: CS-4 125932.0 2.4 76.1 3.66 8902.1 CM-45 200: CS-8 119702.9 7.1 74.0 2.83 7459.6 CM-46 197: CS-7 81457.2 4.7 74.0 2.03 5075.5 CM-47 195: CS-6 91040.4 7.3 75.8 2.44 6328.3 CM-48 218: CB-29 71264.2 5.2 94.5 5.24 12767.9 1 ~s . ~ rr ~ ~ ~ ~ r ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ Honda Aeronautics, Greensboro, NC Catchbasin Table Label Ground Elev.(ft) Invert Elev.(ft Capture Efficiency Is Flooded Ever? Max.Captured Flow (cfs) Max.Hydraulic Grade (ft) CB-1 871.83 858.53 100% FALSE 0.52 859.20 CB-2 872.53 858.92 100% FALSE 0.53 860.22 CB-3 869.74 859.35 100% FALSE 0.40 860.53 CB-4 866.31 861.90 100% FALSE 0.79 862.25 CB-5 867.21 861.69 100% FALSE 0.77 862.17 CB-6 867.37 861.33 100% FALSE 0.63 861.91 CB-7 873.56 869.28 100% FALSE 0.54 869.48 CB-8 872.31 867.63 100% FALSE 1.01 867.96 CB-9 868.98 859.58 100% FALSE 0.72 860.56 CB-10 870.44 861.01 100% FALSE 0.38 861.52 CB-11 871.20 862.67 100% FALSE 0.43 863.22 CB-12 866.29 860.13 100% FALSE 1.75 860.99 CB-13 867.39 860.25 100% FALSE 0.48 861.05 CB-14 867.80 860.61 100% FALSE 0.63 861.36 CB-15 867.53 860.97 100% FALSE 0.63 861.64 CB-16 871.81 865.98 100% FALSE 1.32 866.43 CB-17 872.06 864.32 100% FALSE 0.84 864.83 CB-18 876.04 871.70 100% FALSE 0.34 871.88 CB-19 875.02 870.56 100% FALSE 0.59 870.84 CB-20 873.94 868.92 100% FALSE 0.68 869.26 CB-21 878.23 868.19 100% FALSE 2.42 868.82 CB-22 880.83 875.53 100% FALSE 0.78 876.23 CB-23 882.58 878.30 100% FALSE 0.60 878.65 CB-24 880.83 870.70 100% FALSE 2.09 871.93 CB-25 880.44 870.28 100% FALSE 0.84 871.51 CB-26 879.60 875.35 100% FALSE 0.63 875.54 CB-28 882.30 879.90 100% FALSE 0.12 880.55 CB-29 877.50 873.50 100% FALSE 4.76 874.14 ~ ~ r ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ Honda Aeronautics, Greensboro, NC Manhole Table Label Diameter (ft) Headloss Method Ground Elevation (ft) Invert Elevation (ft) Max. Hydraulic Grade (ft) Is Flooded Ever? MH-1 4 HEC-22 Headloss 867.00 851.65 853.38 FALSE MH-10 4 HEC-22 Headloss 881.50 869.63 870.95 FALSE MH-11 3 HEC-22 Headloss 882.58 878.33 878.66 FALSE MH-12 3 HEC-22 Headloss 882.85 878.44 878.69 FALSE MH-13 3 HEC-22 Headloss 883.33 878.68 878.86 FALSE MH-14 3 HEC-22 Headloss 883.67 879.84 880.26 FALSE MH-15 3 HEC-22 Headloss 883.56 879.46 880.07 FALSE MH-16 3 HEC-22 Headloss 883.37 878.86 879.63 FALSE MH-17 3 HEC-22 Headloss 883.40 878.15 878.92 FALSE MH-18 3 HEC-22 Headloss 881.05 870.45 871.65 FALSE MH-19 3 HEC-22 Headloss 881.00 869.77 871.03 FALSE MH-20 3 HEC-22 Headloss 883.39 881.50 881.91 FALSE MH-21 3 HEC-22 Headloss 882.55 880.64 881.19 FALSE MH-22 3 HEC-22 Headloss 883.71 881.15 881.56 FALSE MH-23 4 HEC-22 Headloss 858.00 851.23 853.38 FALSE r~ it rr r~ r r~ rr a~ r~ r^~ r r r r r r r rr Honda Aeronautics, Greensboro, NC C'rncs Sectinn Tahle Label Manning's n Section Type Left Side Slope (H:V) Bottom Width (ft) Right Side Slope (H:V) eight (ft Invert Elevation (ft) Max.Hydraulic Grade (ft) CS-2 0.035 Trapezoidal 4 4 4 5 855.50 855.72 CS-3 0.035 Trapezoidal 4 4 4 5 855.00 855.26 CS-4 0.035 Trapezoidal 4 4 4 5 841.00 841.55 CS-5 0.035 Trapezoidal 4 4 4 5 840.00 840.44 CS-6 0.035 Trapezoidal 6 6 6 4 848.50 848.68 CS-7 0.035 Trapezoidal 6 6 6 4 832.50 832.81 CS-8 0.035 Tra ezoidal 4 4 4 5 835.00 835.36 CS-12 0.035 Trapezoidal 10 10 10 3 849.00 849.18 ~ ~ r r~r r r ~ Honda Aeronautics, Greensboro, NC Conduit Table r ~ s ~ r ~ ~ ~ ~^ ~ r ~ Label Start-node Start IE Stop-node Stop IE Length (ft) Slope Diameter (in) Manning's 'n' Full Capacity (cfs) Max.Flow (cfs) Max.Velocity (ft/s) CO-1 17: MH-1 851.65 16: OF-2 851.00 129.5 0.5% 30 0.013 29.06 14.65 5.33 CO-2 19: CB-1 858.53 17: MH-1 851.65 118.3 5.8% 30 0.013 98.91 14.75 14.44 CO-3 21: CB-2 858.92 19: CB-1 858.53 77.3 0.5% 30 0.013 29.13 14.23 5.80 CO-4 23: CB-3 859.35 21: CB-2 858.92 86.0 0.5% 30 0.013 29.00 11.95 5.49 CO-5 39: CB-18 871.70 40: CB-19 870.56 71.0 1.6% 18 0.013 13.31 0.36 3.07 CO-6 40: CB-19 870.56 41: CB-20 869.42 71.0 1.6% 18 0.013 13.31 0.97 4.27 CO-7 41: CB-20 868.92 21: CB-2 867.78 71.0 1.6% 24 0.013 28.66 1.68 4.92 CO-8 28: CB-7 869.28 29: CB-8 867.63 71.0 2.3% 18 0.013 16.01 0.56 3.80 CO-9 29: CB-8 867.63 37: CB-16 865.98 71.0 2.3% 18 0.013 16.01 1.60 5.67 CO-10 37: CB-16 865.98 38: CB-17 864.32 71.0 2.3% 18 0.013 16.06 2.96 6.87 CO-11 38: CB-17 864.32 32: CB-11 862.67 71.0 2.3% 18 0.013 16.01 3.84 7.39 CO-12 32: CB-11 862.67 31: CB-10 861.01 71.0 2.3% 18 0.013 16.06 4.30 7.65 CO-13 31: CB-10 861.01 23: CB-3 859.35 71.0 2.3% 24 0.013 34.59 4.71 7.66 CO-14 33: CB-12 860.13 30: CB-9 859.58 110.2 0.5% 24 0.013 15.98 5.96 4.65 CO-15 30: CB-9 859.58 23: CB-3 859.35 45.0 0.5% 30 0.013 29.34 6.71 3.30 CO-16 25: CB-4 861.90 26: CB-5 861.69 42.3 0.5% 18 0.013 7.41 0.83 2.35 CO-17 26: CB-5 861.69 27: CB-6 861.33 71.0 0.5% 18 0.013 7.48 1.63 3.31 CO-18 27: CB-6 861.33 36: CB-15 860.97 71.0 0.5% 18 0.013 7.48 2.30 3.66 CO-19 36: CB-15 860.97 35: CB-14 860.61 71.0 0.5% 18 0.013 7.48 2.98 3.95 CO-20 35: CB-14 860.61 34: CB-13 860.25 71.0 0.5% 18 0.013 7.48 3.65 4.18 CO-21 34: CB-13 860.25 33: CB-12 860.13 22.3 0.5% 18 0.013 7.71 4.16 4.29 CO-26 61: CB-23 878.30 60: CB-22 876.03 227.5 1.0% 18 0.013 10.49 1.16 3.82 CO-27 60: CB-22 875.53 59: CB-21 872.98 94.5 2.7% 24 0.013 37.17 9.00 9.77 CO-33 84: CB-26 875.35 83: MH-10 873.33 48.0 4.2% 18 0.013 21.56 0.70 5.43 CO-34 83: MH-10 869.63 59: CB-21 868.19 287.0 0.5% 30 0.013 29.05 14.76 5.92 C0-38 138: CB-28 879.90 62: CB-24 877.82 104.1 2.0% 18 0.013 14.85 5.24 7.64 CO-39 153: MH-11 878.33 61: CB-23 878.30 6.1 0.5% 15 0.013 4.55 0.17 0.65 ^r r~ r rr r ,r . r a~ rs ,^~ r ~^r ~ ~ r r~ r r CO-40 156: MH-13 878.68 155: MH-12 878.44 48.3 0.5% 15 0.013 4.55 0.17 1.57 CO-41 155: MH-12 878.44 61: CB-23 878.30 26.9 0.5% 15 0.013 4.66 0.34 1.61 CO-42 159: MH-14 879.84 160: MH-15 879.46 37.9 1.0% 18 0.013 10.52 1.75 4.13 CO-43 160: MH-15 879.46 161: MH-16 878.86 59.4 1.0% 18 0.013 10.56 3.47 5.25 CO-44 161: MH-16 878.86 162: MH-17 878.57 30.3 1.0% 18 0.013 10.28 5.19 5.93 CO-45 162: MH-17 878.15 60: CB-22 876.78 136.6 1.0% 24 0.013 22.65 6.89 6.30 CO-46 63: CB-25 870.28 168: MH-19 869.77 101.2 0.5% 30 0.013 29.12 13.79 5.74 CO-47 168: MH-19 869.77 83: MH-10 869.63 26.8 0.5% 30 0.013 29.65 14.08 5.59 CO-48 62: CB-24 870.70 167: MH-18 870.45 49.3 0.5% 30 0.013 29.20 12.61 5.52 CO-49 167: MH-18 870.45 63: CB-25 870.28 33.7 0.5% 30 0.013 29.15 12.91 5.56 CO-50 175: MH-20 881.50 176: MH-21 880.64 42.6 2.0% 12 0.013 5.06 1.71 5.73 CO-51 176: MH-21 880.64 138: CB-28 880.40 11.9 2.0% 15 0.013 9.16 3.41 6.99 CO-52 177: MH-22 881.15 138: CB-28 880.40 38.0 2.0% 12 0.013 5.01 1.71 5.69 CO-54 218: CB-29 873.50 62: CB-24 870.70 280.0 1.0% 24 0.013 22.62 4.97 5.73 CO-55 59: CB-21 868.19 289: MH-23 851.23 82.9 20.5% 30 0.013 185.51 26.47 27.18 CO-56 289: MH-23 851.23 15: OF-1 851.00 45.7 0.5% 30 0.013 29.11 26.51 7.11 CO-57 203: OS-1 849.30 297: CS-12 849.00 60.0 0.5% 36 0.013 47.16 5.03 4.71 Honda Aeronautics Greensboro NC ~ Channel Table Label CH-2 Start-node 188: CS-2 Stop-node 189: CS-3 Start Invert (ft) 855.50 Stop Invert (ft) 855.00 Length (ft) 10 Slope 5.0% Max.Flow (cfs) 3.17 Max.Velocity (ft/s) 2.93 CH-3 189: CS-3 191: CS-4 855.00 841.00 532 2.6% 3.08 2.36 CH-4 191: CS-4 192: CS-5 841.00 840.00 160 0.6% 6.20 1.82 CH-5 195: CS-6 197: CS-7 848.50 832.50 580 2.8% 2.42 1.90 CH-6 197: CS-7 196: OF-3 832.50 831.50 14.5 6.9% 13.11 4.62 CH-7 200: CS-8 197: CS-7 835.00 832.50 72.25 3.5% 9.49 3.70 CH-8 192: CS-5 200: CS-8 840.00 835.00 340 1.5% 6.01 2.41 ~ CH-16 297: CS-12 200: CS-8 849.00 835.00 339 4.1% 5.03 2.66 1 1 1 1 1 1 1 1 1 1 Honda Aeronautics Greensboro, NC 1 Pond Table Label Volume Type Initial Elevation (ft) Max.Hydraulic Grade (ft) Max. Storage (cu.ft.) PO-1 Elevation-Area 849.50 853.37 58454.18 Outlet Structures 1 Id Label Upstream Pond Has Control Structure 203 OS-1 184: PO-1 Yes t $ 854 v 853 ~ 852 ~ 851 = 850 ~~ 16.0 n 14.0 $ 12.0 0 10.0 8.0 ~ 6.0 m 4.0 2.0 0.0 70000 60000 ~ 50000 ~ 40000 0 30000 ~ 20000 10000 0 2 Year Pond Data 0 2 4 6 8 10 12 14 Time (hours) 1ti 1~ 1U 1'L 24 1 1 1 i 1 1 1 1 1 1 1 Honda Aeronautics, Greensboro, NC Catchment Table Label Outflow Node Area (sq.ft.) Tc (min) Composite SCS CN Peak Flow (cfs) Total Runoff Vol. (cu.ft.) CM-2 25: CB-4 10977.1 1.2 98.0 1.13 2987.6 CM-3 26: CB-5 10715.8 1.3 98.0 1.10 2913.9 CM-4 27: CB-6 8799.1 1.3 98.0 0.91 2396.4 CM-5 36: CB-15 8755.6 1.4 98.0 0.90 2385.9 CM-6 35: CB-14 8755.6 1.4 98.0 0.90 2387.4 CM-7 34: CB-13 6664.7 1.4 98.0 0.69 1813.3 CM-8 33: CB-12 4399.6 2.4 98.0 0.45 1196.2 CM-9 33: CB-12 32713.6 6.3 74.0 1.37 3380.4 CM-10 33: CB-12 9104 2.8 98.0 0.94 2477.6 CM-11 30: CB-9 10062.4 1.6 98.0 1.04 2738.6 CM-12 28: CB-7 13024.4 3.4 83.1 0.87 2018.1 CM-13 29: CB-8 17598.2 4.0 90.1 1.52 3602.7 CM-14 37: CB-16 28880.3 4.1 84.9 2.08 4825.1 CM-15 38: CB-17 15768.7 4.1 88.4 1.29 3025.0 CM-16 32: CB-11 6011.3 1.5 98.0 0.62 1637.8 CM-17 31: CB-10 5314.3 1.4 98.0 0.55 1442.3 CM-18 23: CB-3 5619.2 1.7 98.0 0.58 1523.6 CM-19 39: CB-18 4704.5 1.3 98.0 0.48 1279.3 CM-20 40: CB-19 9626.8 2.5 92.0 0.88 2120.2 CM-21 41: CB-20 11456.3 2.3 91.1 1.03 2449.3 CM-22 21: CB-2 9104 2.1 90.4 0.80 1899.0 CM-23 19: CB-1 8102.2 1.8 92.8 0.77 1863.3 CM-24 61: CB-23 8320 2.3 98.0 0.86 2264.1 CM-25 60: CB-22 10759.3 1.9 98.0 1.12 2958.1 CM-26 59: CB-21 35937 2.8 95.1 3.54 8833.1 CM-27 84: CB-26 8799.1 1.3 98.0 0.91 2394.2 CM-28 63: CB-25 17467.6 3.1 86.1 1.32 3062.6 CM-29 62: CB-24 38071.4 2.2 90.7 3.15 7480.4 CM-30 138: CB-28 2265.1 1.1 89.0 0.19 442.7 CM-31 175: MH-20 22389.8 4.6 98.0 2.31 6094.5 CM-32 176: MH-21 22389.8 4.6 98.0 2.31 6094.5 CM-33 167: MH-18 3964 2.1 98.0 0.41 1081.2 CM-34 168: MH-19 3964 2.1 98.0 0.41 1077.4 CM-35 177: MH-22 22389.8 4.6 98.0 2.31 6094.5 CM-36 159: MH-14 22912.6 4.6 98.0 2.36 6236.8 CM-37 160: MH-15 22912.6 4.6 98.0 2.36 6236.8 CM-38 161: MH-16 22912.6 4.6 98.0 2.36 6236.8 CM-39 162: MH-17 22912.6 4.6 98.0 236 6236.8 CM-40 156: MH-13 2265.1 1.4 98.0 0.23 613.5 CM-41 155: MH-12 2265.1 1.4 98.0 0.23 616.6 CM-42 153: MH-11 2265.1 1.4 98.0 0.23 613.5 1 1 1 1 i CM-43 188: CS-2 139827.6 9.2 74.0 5.45 14447.3 CM-44 191: CS-4 125932 2.4 76.1 6.13 14384.4 CM-45 200: CS-8 119702:9 7.1 74.0 4.88 12369.7 CM-46 197: CS-7 81457.2 4.7 74.0 3.54 8416.4 CM-47 195: CS-6 91040.4 7.3 75.8 4.05 10260.4 CM-48 218: CB-29 71264.2 5.2 94.5 6.92 17160.8 ~ ~ ~ ~ ~ ~ ~ ~ ~ i ~ ~ ~ ~ ~ ~ ~ ~ ~ Honda Aeronautics, Greensboro, NC Catchbasin Table Label Ground Elev.(ft) Rim Elev.(ft) Capture Efficiency Is Flooded Ever? Max.Captured Flow (cfs) Max.Hydraulic Grade (ft) CB-1 871.83 871.83 100% FALSE 0.77 859.30 CB-2 872.53 872.53 100% FALSE 0.80 860.46 CB-3 869.74 869.74 100% FALSE 0.58 860.74 CB-4 866.31 866.31 100% FALSE 1.13 862.31 CB-5 867.21 867.21 100% FALSE 1.10 862.26 CB-6 867.37 867.37 100% FALSE 0.91 862.01 CB-7 873.56 873.56 100% FALSE 0.87 869.52 CB-8 872.31 872.31 100% FALSE 1.52 868.03 CB-9 868.98 868.98 100% FALSE 1.04 860.78 CB-10 870.44 870.44 100% FALSE 0.55 861.62 CB-11 871.20 871.20 100% FALSE 0.62 863.34 CB-12 866.29 866.29 100% FALSE 2.73 861.14 CB-13 867.39 867.39 100% FALSE 0.69 861.16 CB-14 867.80 867.80 100% FALSE 0.90 861.48 CB-15 867.53 867.53 100% FALSE ~ 0.90 861.75 CB-16 871.81 871.81 100% FALSE 2.08 866.53 CB-17 872.06 872.06 100% FALSE 1.29 864.95 CB-18 876.04 876.04 100% FALSE 0.48 871.90 CB-19 875.02 875.02 100% FALSE 0.88 870.89 CB-20 873.94 873.94 100% FALSE 1.03 869.32 CB-21 878.23 878.23 100% FALSE 3.54 868.91 CB-22 880.83 880.83 100% FALSE 1.12 876.33 CB-23 882.58 882.58 100% FALSE 0.86 878.70 CB-24 880.83 880.83 100% FALSE 3.15 872.11 CB-25 880.44 880.44 100% FALSE 1.32 871.72 CB-26 879.60 879.60 100% FALSE 0.91 875.56 CB-28 882.30 882.30 100% FALSE 0.19 880.65 CB-29 877.50 877.50 100% FALSE 6.92 874.26 ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ r ~ ~ ~ ~ ~ ~ Honda Aeronautics, Greensboro, NC Manhole Table Label Diameter (ft) Headloss Method Ground Elevation (ft) Invert Elevation (ft) Max. Hydraulic Grade (ft) Is Flooded Ever? MH-1 4 HEC-22 Headloss 867.00 851.65 854.04 FALSE MH-10 4 HEC-22 Headloss 881.50 869.63 871.16 FALSE MH-11 3 HEC-22 Headloss 882.58 878.33 878.70 FALSE MH-12 3 HEC-22 Headloss 882.85 878.44 878.73 FALSE MH-13 3 HEC-22 Headloss 883.33 878.68 878.89 FALSE MH-14 3 HEC-22 Headloss 883.67 879.84 880.33 FALSE MH-15 3 HEC-22 Headloss 883.56 879.46 880.18 FALSE MH-16 3 HEC-22 Headloss 883.37 878.86 879.78 FALSE MH-17 3 HEC-22 Headloss 883.40 878.15 879.06 FALSE MH-18 3 HEC-22 Headloss 881.05 870.45 871.84 FALSE MH-19 3 HEC-22 Headloss 881.00 869.77 871.23 FALSE MH-20 3 HEC-22 Headloss 883.39 881.50 881.98 FALSE MH-21 3 HEC-22 Headloss 882.55 880.64 881.29 FALSE MH-22 3 HEC-22 Headloss 883.71 881.15 881.63 FALSE MH-23 4 HEC-22 Headloss 858.00 851.23 854.09 TRUE Honda Aeronautics, Greensboro, NC Cross Section Table Label Manning's n Section Type Left Side Slope (H:V) Bottom Width (ft) Right Side Slope (H:V) eight (ft Invert Elevation (ft) Max.Hydraulic Grade (ft) CS-2 0.035 Trapezoidal 4 4 4 5 855.50 855.80 CS-3 0.035 Trapezoidal 4 4 4 5 855.00 855.35 CS-4 0.035 Trapezoidal 4 4 4 5 841.00 841.53 CS-5 0.035 Trapezoidal 4 4 4 5 840.00 840.60 CS-6 0.035 Trapezoidal 6 6 6 4 848.50 848.73 CS-7 0.035 Trapezoidal 6 6 6 4 832.50 832.97 CS-8 0.035 Trapezoidal 4 4 4 5 835.00 835.47 CS-12 0.035 Trapezoidal 10 10 10 3 849.00 849.33 i ~ ~ ~ ~ ~ ~ ~ Honda Aeronautics, Greensboro, NC Conduit Table ~ s ~ ~ ~ ~ ~ a~ ~ ~ ~ Label Start-node Start IE Stop-node Stop IE Length (ft) Slope Diameter (in) Manning's 'n' Full Capacity (cfs) CO-1 17: MH-1 851.65 16: OF-2 851.0 129.5 0.5% 30 0.013 29.06 CO-2 19: CB-1 858.53 17: MH-1 851.7 118.3 5.8% 30 0.013 98.91 CO-3 21: CB-2 858.92 19: CB-1 858.5 77.3 0.5% 30 0.013 29.13 CO-4 23: CB-3 859.35 21: CB-2 858.9 86.0 0.5% 30 0.013 29.00 CO-5 39: CB-18 871.7 40: CB-19 870.6 71.0 1.6% 18 0.013 13.31 CO-6 40: CB-19 870.56 41: CB-20 869.4 71.0 1.6% 18 0.013 13.31 CO-7 41: CB-20 868.92 21: CB-2 867.8 71.0 1.6% 24 0.013 28.66 CO-8 28: CB-7 869.28 29: CB-8 867.6 71.0 2.3% 18 0.013 16.01 CO-9 29: CB-8 867.63 37: CB-16 866.0 71.0 2.3% 18 0.013 16.01 CO-10 37: CB-16 865.98 38: CB-17 864.3 71.0 2.3% 18 0.013 16.06 CO-11 38: CB-17 864.32 32: CB-11 862.7 71.0 2.3% 18 0.013 16.01 CO-12 32: CB-11 862.67 31: CB-10 861.0 71.0 2.3% 18 0.013 16.06 CO-13 31: CB-10 861.01 23: CB-3 859.4 71.0 2.3% 24 0.013 34.59 CO-14 33: CB-12 860.13 30: CB-9 859.6 110.2 0.5% 24 0.013 15.98 CO-15 30: CB-9 859.58 23: CB-3 859.4 45.0 0.5% 30 0.013 29.34 CO-16 , 25: CB-4 861.9 26: CB-5 861.7 42.3 0.5% 18 0.013 7.41 CO-17 26: CB-5 861.69 27: CB-6 861.3 71.0 0.5% 18 0.013 7.48 CO-18 27: CB-6 861.33 36: CB-15 861.0 71.0 0.5% 18 0.013 7.48 CO-19 36: CB-15 860.97 35: CB-14 860.6 71.0 0.5% 18 0.013 7.48 CO-20 35: CB-14 860.61 34: CB-13 860.3 71.0 0.5% 18 0.013 7.48 CO-21 34: CB-13 860.25 33: CB-12 860.1 22.3 0.5% 18 0.013 7.71 CO-26 61: CB-23 878.3 60: CB-22 876.0 227.5 1.0% 18 0.013 10.49 CO-27 60: CB-22 875.53 59: CB-21 873.0 94.5 2.7% 24 0.013 37.17 CO-33 84: CB-26 875.35 83: MH-10 873.3 48.0 4.2% 18 0.013 21.56 CO-34 83: MH-10 869.63 59: CB-21 868.2 287.0 0.5% 30 0.013 29.05 CO-38 138: CB-2 879.9 62: CB-24 877.8 104.1 2.0% 18 0.013 14.85 CO-39 153: MH-1 878.33 61: CB-23 878.3 6.1 0.5% 15 0.013 4.55 CO-40 156: MH-1 878.68 155: MH-1 878.4 48.3 0.5% 15 0.013 4.55 CO-41 155: MH-1 878.44 61: CB-23 878.3 26.9 0.5% 15 0.013 4.66 CO-42 159: MH-1 879.84 160: MH-1 879.5 37.9 1.0% 18 0.013 10.52 CO-43 160: MH-1 879.46 161: MH-1 878.9 59.4 1.0% 18 0.013 10.56 CO-44 161: MH-1 878.86 162: MH-1 878.6 30.3 1.0% 18 0.013 10.28 CO-45 162: MH-1 878.15 60: CB-22 876.8 136.6 1.0% 24 0.013 22.65 CO-46 63: CB-25 870.28 168: MH-1 869.8 101.2 0.5% 30 0.013 29.12 CO-47 168: MH-1 869.77 83: MH-10 869.6 26.8 0.5% 30 0.013 29.65 CO-48 62: CB-24 870.7 167: MH-1 870.5 49.3 0.5% 30 0.013 29.20 CO-49 167: MH-1 870.45 63: CB-25 870.3 33.7 0.5% 30 0.013 29.15 CO-50 175: MH-2 881.5 176: MH-2 880.6 42.6 2.0% 12 0.013 5.06 CO-51 176: MH-2 880.64 138: CB-2 880.4 11.9 2.0% 15 0.013 9.16 CO-52 177: MH-2 881.15 138: CB-2 880.4 38.0 2.0% 12 0.013 5.01 CO-54 218: CB-2 873.5 62: CB-24 870.7 280.0 1.0% 24 0.013 22.62 CO-55 59: CB-21 868.19 289: MH-2 851.2 82.9 20.5% 30 0.013 185.51 CO-56 289: MH-2 851.23 15: OF-1 851.0 45.7 0.5% 30 0.013 29.11 CO-57 203: OS-1 849.3 297: CS-12 849.0 60.0 0.5% 36 0.013 47.16 1 Honda Aeronautics, Greensboro, NC ,Channel Table ~ Start Invert Stop Invert Length Max.Flow Max.Velocity Label CH 2 Start-node 1 Stop-node (ft) (ft) (ft) Slope (cfs) (ft/s) - 88: CS-2 189: CS-3 855.50 855.00 10 5.0% 5.37 3.50 CH-3 189: CS-3 191: CS-4 855.00 841.00 532 2.6% 5.37 2.83 CH-4 191: CS-4 192: CS-5 841.00 840.00 160 0.6% 10.99 2.13 CH-5 195: CS-6 197: CS-7 848.50 832.50 580 2.8% 4.05 2.33 CH-6 197: CS-7 196: OF-3 832.50 831.50 14.5 6.9% 25.84 5.69 CH-7 200: CS-8 197: CS-7 835.00 832.50 72.25 3.5% 21.68 4.69 CH-8 192: CS-5 200: CS-8 840.00 835.00 340 1.5% 10.99 2.89 CH-16 297: CS-12 200: CS-8 849.00 835.00 339 4.1% 15.35 3.84 1 1 1 1 1 1 1 1 Honda Aeronautics, Greensboro, NC Pond Table Label Volume Type Initial Elevation (ft) Max.Hydraulic Grade (ft) Max. Storage (cu.ft.) PO-1 Elevation-Area 849.50 854.02 74543.46 Outlet Structures 1 1 Id Label Upstream Pond Has Control Structure 203 OS-1 184: PO-1 Yes 1 1 1 ~4 ~E 1~ 1 1 1 1 855 $ 854 -0 853 m ~ 852 ~ 851 = 850 849 45.0 40.0 35.0 $ 30.0 0 25.0 ~ 20.0 15.0 10.0 5.0 0.0 120000 100000 80000 60000 40000 20000 0 10 Year Pond Data --- u Z 4 6 S 10 12 14 Time (hours) 16 18 20 22 24 s 1 1 1 I Honda Aeronautics, Greensboro, NC Catchment Table Label Outflow Node Area (sq.ft.) Tc (min) Composite SCS CN Peak Flow (cfs) Total Runoff Vol. (cu.ft.) CM-2 25: CB-4 10977 1.2 98.0 1.66 4448.4 CM-3 26: CB-5 10716 1.3 98.0 1.62 4338.7 CM-4 27: CB-6 8799.1 1.3 98.0 1.33 3568.3 CM-5 36: CB-15 8755.6 1.4 98.0 1.32 3552.6 CM-6 35: CB-14 8755.6 1.4 98.0 1.32 3554.9 CM-7 34: CB-13 6664.7 1.4 98.0 1.01 2700.5 CM-8 33: CB-12 4399.6 2.4 98.0 0.66 1782.2 CM-9 33: CB-12 32714 6.3 74.0 2.75 6664.1 CM-10 33: CB-12 9104 2.8 98.0 1.37 3689.1 CM-11 30: CB-9 10062 1.6 98.0 1.52 4077.5 CM-12 28: CB-7 13024 3.4 83.1 1.52 3542.8 CM-13 29: CB-8 17598 4.0 90.1 2.41 5841.1 CM-14 37: CB-16 28880 4.1 84.9 3.53 8294.9 CM-15 38: CB-17 15769 4.1 88.4 2.08 4998.1 CM-16 32: CB-11 6011.3 1.5 98.0 0.91 2439.3 CM-17 31: CB-10 5314.3 1.4 98.0 0.80 2148.4 CM-18 23: CB-3 5619.2 1.7 98.0 0.85 2269.5 CM-19 39: CB-18 4704.5 1.3 98.0 0.71 1905.8 CM-20 40: CB-19 9626.8 2.5 92.0 1.36 3366.9 CM-21 41: CB-20 11456 2.3 91.1 1.61 3930.1 CM-22 21: CB-2 9104 2.1 90.4 1.26 3068.9 CM-23 19: CB-1 8102.2 1.8 92.8 1.18 2933.5 CM-24 61: CB-23 8320 2.3 98.0 1.26 3371.4 CM-25 60: CB-22 10759 1.9 98.0 1.64 4404.6 CM-26 59: CB-21 35937 2.8 95.1 5.30 13567.3 CM-27 84: CB-26 8799.1 1.3 98.0 1.33 3564.9 CM-28 63: CB-25 17468 3.1 86.1 2.19 5188.6 CM-29 62: CB-24 38071 2.2 90.7 4.94 12052.1 CM-30 138: CB-28 2265.1 1.1 89.0 0.30 730.2 CM-31 175: MH-20 22390 4.6 98.0 3.38 9073.6 CM-32 176: MH-21 22390 4.6 98.0 3.38 9073.6 CM-33 167: MH-18 3964 2.1 98.0 0.60 1611.1 CM-34 168: MH-19 3964 2.1 98.0 0.60 1605.7 CM-35 177: MH-22 22390 4.6 98.0 3.38 9073.6 CM-36 159: MH-14 22913 4.6 98.0 3.46 9285.5 CM-37 160: MH-15 22913 4.6 98.0 3.46 9285.5 CM-38 161: MH-16 22913 4.6 98.0 3.46 9285.5 CM-39 162: MH-17 22913 4.6 98.0 3.46 9285.5 CM-40 156: MH-13 2265.1 1.4 98.0 0.34 916.4 CM-41 155: MH-12 2265.1 1.4 98.0 0.34 920.9 CM-42 153: MH-11 2265.1 1.4 98.0 0.34 916.4 1 1 1 CM-43 188: CS-2 139828 9.2 74.0 10.89 28480.8 CM-44 191: CS-4 125932 2.4 76.1 11.92 27553.0 CM-45 . 200: CS-8 119703 7.1 74.0 9.88 24384.8 CM-46 197: CS-7 81457 4.7 74.0 7.17 16591.8 CM-47 195: CS-6 91040 7.3 75.8 7.94 19728.7 CM-48 218: CB-29 71264 5.2 94.5 10.41 26515.0 r rr r ~ ~ ~ ~ s r ~a r~ rr ~ r^t r ~ ~ ~ r Honda Aeronautics, Greensboro, NC Catchbasin Table Label Ground Elev.(ft) Invert Elevation (ft) Capture Efficiency Is Flooded Ever? Max.Captured Flow (cfs) Max.Hydraulic Grade (ft) CB-1 871.83 858.53 100% FALSE 1.18 859.50 CB-2 872.53 858.92 100% FALSE 1.26 860.95 CB-3 869.74 859.35 100% FALSE 0.85 861.18 CB-4 866.31 861.90 100% FALSE 1.66 862.41 CB-5 867.21 861.69 100% FALSE 1.62 862.40 CB-6 867.37 861.33 100% FALSE 1.33 862.19 CB-7 873.56 869.28 100% FALSE 1.52 869.60 CB-8 872.31 867.63 100% FALSE 2.41 868.15 CB-9 868.98 859.58 100% FALSE 1.52 861.23 CB-10 870.44 861.01 100% FALSE 0.80 861.81 CB-11 871.20 862.67 100% FALSE 0.91 863.58 CB-12 866.29 860.13 100% FALSE 4.78 861.46 CB-13 867.39 860.25 100% FALSE 1.01 861.49 CB-14 867.80 860.61 100% FALSE 1.32 861.73 CB-15 867.53 860.97 100% FALSE 1.32 861.97 CB-16 871.81 865.98 100% FALSE 3.53 866.72 CB-17 872.06 864.32 100% FALSE 2.08 865.18 CB-18 876.04 871.70 100% FALSE 0.71 871.94 CB-19 875.02 870.56 100% FALSE 1.36 870.97 CB-20 873.94 868.92 100% FALSE 1.61 869.41 CB-21 878.23 868.19 100% FALSE 5.30 869.07 CB-22 880.83 875.53 100% FALSE 1.64 876.51 CB-23 882.58 878.30 100% FALSE 1.26 878.79 CB-24 880.83 870.70 100% FALSE 4.94 872.47 CB-25 880.44 870.28 100% FALSE 2.19 872.14 CB-26 879.60 875.35 100% FALSE 1.33 875.60 CB-28 882.30 879.90 100% FALSE 0.30 880.85 CB-29 877.50 873.50 100% FALSE 10.41 874.45 r ~ ~ ~ ~ r r ~ rr ~ ~ r ~ ~ ~ ~ ~ s ~ Honda Aeronautics, Greensboro, NC Manhole Table Label Diameter (ft) Headloss Method Ground Elevation (ft) Invert Elevation (ft) Max. Hydraulic Grade (ft) Is Flooded Ever? MH-1 4 HEC-22 Headloss 867.00 851.65 855.05 TRUE MH-10 4 HEC-22 Headloss 881.50 869.63 871.67 FALSE MH-11 3 HEC-22 Headloss 882.58 878.33 878.79 FALSE MH-12 3 HEC-22 Headloss 882.85 878.44 878.80 FALSE MH-13 3 HEC-22 Headloss 883.33 878.68 878.92 FALSE MH-14 3 HEC-22 Headloss 883.67 879.84 880.47 FALSE MH-15 3 HEC-22 Headloss 883.56 879.46 880.39 FALSE MH-16 3 HEC-22 Headloss 883.37 878.86 880.08 FALSE MH-17 3 HEC-22 Headloss 883.40 878.15 879.29 FALSE MH-18 3 HEC-22 Headloss 881.05 870.45 872.22 FALSE MH-19 3 HEC-22 Headloss 881.00 869.77 871.75 FALSE MH-20 3 HEC-22 Headloss 883.39 881.50 882.10 FALSE MH-21 3 HEC-22 Headloss 882.55 880.64 881.47 FALSE MH-22 3 HEC-22 Headloss 883.71 881.15 881.75 FALSE MH-23 4 HEC-22 Headloss 858.00 851.23 855.09 TRUE Honda Aeronautics, Greensboro, NC Cross Section Table ~ ~ ~ ~ ~ ~ Label Manning's n Section Type Left Side Slope (H:V) Bottom Width (ft) Right Side Slope (H:V) eight (ft Invert Elevation (ft) Max.Hydraulic Grade (ft) CS-2 0.035 Trapezoidal 4 4 4 5 855.50 855.93 CS-3 0.035 Trapezoidal 4 4 4 5 855.00 855.51 CS-4 0.035 Trapezoidal 4 4 4 5 841.00 841.79 CS-5 0.035 Trapezoidal 4 4 4 5 840.00 840.84 CS-6 0.035 Trapezoidal 6 6 6 4 848.50 848.84 CS-7 0.035 Trapezoidal 6 6 6 4 832.50 8.33.22 CS-8 0.035 Tra ezoidal 4 4 4 5 835.00 835.67 CS-12 0.035 Trapezoidal 10 10 10 3 849.00 849.57 ~r ~ ~ ~ ~ rr wt s ~ ~ ~ rr ~ ~ rf ~ ~ ~ r Honda Aeronautics, Greensboro, NC Conduit Table Label Start-node Start IE Stop-node Stop IE Length (ft) Slope Diameter (in) Manning's 'n' Full Capacity (cfs) CO-1 17: MH-1 851.65 16: OF-2 851.0 129.5 0.5% 30 0.013 29.06 CO-2 19: CB-1 858.53 17: MH-1 851.7 118.3 5.8% 30 0.013 98.91 CO-3 21: CB-2 858.92 19: CB-1 858.5 77.3 0.5% 30 0.013 29.13 CO-4 23: CB-3 859.35 21: CB-2 858.9 86.0 0.5% 30 0.013 29.00 CO-5 39: CB-18 871.7 40: CB-19 870.6 71.0 1.6% 18 0.013 13.31 CO-6 40: CB-19 870.56 41: CB-20 869.4 71.0 1.6% 18 0.013 13.31 CO-7 41: CB-20 868.92 21: CB-2 867.8 71.0 1.6% 24 0.013 28.66 CO-8 28: CB-7 869.28 29: CB-8 867.6 71.0 2.3% 18 0.013 16.01 CO-9 29: CB-8 867.63 37: CB-16 866.0 71.0 2.3% 18 0.013 16.01 CO-10 37: CB-16 865.98 38: CB-17 864.3 71.0 2.3% 18 0.013 16.06 CO-11 38: CB-17 864.32 32: CB-11 862.7 71.0 2.3% 18 0.013 16.01 CO-12 32: CB-11 862.67 31: CB-10 861.0 71.0 2.3% 18 0.013 16.06 CO-13 31: CB-10 861.01 23: CB-3 859.4 71.0 2.3% 24 0.013 34.59 CO-14 33: CB-12 860.13 30: CB-9 859.6 110.2 0.5% 24 0.013 15.98 CO-15 30: CB-9 859.58 23: CB-3 859.4 45.0 0.5% 30 0.013 29.34 CO-16 , 25: CB-4 861.9 26: CB-5 861.7 42.3 0.5% 18 0.013 7.41 CO-17 26: CB-5 861.69 27: CB-6 861.3 71.0 0.5% 18 0.013 7.48 CO-18 27: CB-6 861.33 36: CB-15 861.0 71.0 0.5% 18 0.013 7.48 CO-19 36: CB-15 860.97 35: CB-14 860.6 71.0 0.5% 18 0.013 7.48 CO-20 35: CB-14 860.61 34: CB-13 860.3 71.0 0.5% 18 0.013 7.48 CO-21 34: CB-13 860.25 33: CB-12 860.1 22.3 0.5% 18 0.013 7.71 CO-26 61: CB-23 878.3 60: CB-22 876.0 227.5 1.0% 18 0.013 10.49 CO-27 60: CB-22 875.53 59: CB-21 873.0 94.5 2.7% 24 0.013 37.17 CO-33 84: CB-26 875.35 83: MH-10 873.3 48.0 4.2% 18 0.013 21.56 CO-34 83: MH-10 869.63 59: CB-21 868.2 287.0 0.5% 30 0.013 29.05 CO-38 138: CB-2 879.9 62: CB-24 877.8 104.1 2.0% 18 0.013 14.85 CO-39 153: MH-1 878.33 61: CB-23 878.3 6.1 0.5% 15 0.013 4.55 ~ r r r rr rr rr rr r ~^r rr err r~ rr rs rr rr rr r~ CO-40 156: MH-1 878.68 155: MH-1 878.4 48.3 0.5% 15 0.013 4.55 CO-41 155: MH-1 878.44 61: CB-23 878.3 26.9 0.5% 15 0.013 4.66 CO-42 159: MH-1 879.84 160: MH-1 879.5 37.9 1.0% 18 0.013 10.52 CO-43 160: MH-1 879.46 161: MH-1 878.9 59.4 1.0% 18 0.013 10.56 CO-44 161: MH-1 878.86 162: MH-1 878.6 30.3 1.0% 18 0.013 10.28 CO-45 162: MH-1 878.15 60: CB-22 876.8 136.6 1.0% 24 0.013 22.65 CO-46 63: CB-25 870.28 168: MH-1 869.8 101.2 0.5% 30 0.013 29.12 CO-47 168: MH-1 869.77 83: MH-10 869.6 26.8 0.5% 30 0.013 29.65 CO-48 62: CB-24 870.7 167: MH-1 870.5 49.3 0.5% 30 0.013 29.20 CO-49 167: MH-1 870.45 63: CB-25 870.3 33.7 0.5% 30 0.013 29.15 CO-50 175: MH-2 881.5 176: MH-2 880.6 42.6 2.0% 12 0.013 5.06 CO-51 176: MH-2 880.64 138: CB-2 880.4 11.9 2.0% 15 0.013 9.16 CO-52 177: MH-2 881.15 138: CB-2 880.4 38.0 2.0% 12 0.013 5.01 CO-54 218: CB-2 873.5 62: CB-24 870.7 280.0 1.0% 24 0.013 22.62 CO-55 59: CB-21 868.19 289: MH-2 851.2 82.9 20.5% 30 0.013 185.51 CO-56 289: MH-2 851.23 15: OF-1 851.0 45.7 0.5% 30 0.013 29.11 CO-57 203: OS-1 849.3 297: CS-12 849.0 60.0 0.5% 36 0.013 47.16 Honda Aeronautics, Greensboro, NC Channel Table Label Start-node Stop-node Start Invert (ft) Stop Invert (ft) Length (ft) Slope Max.Flow (cfs) Max.Velocity (ft/s) CH-2 188: CS-2 189: CS-3 855.50 855.00 10 5.0% 10.89 4.43 CH-3 189: CS-3 191: CS-4 855.00 841.00 532 2.6% 10.89 3.54 CH-4 191: CS-4 192: CS-5 841.00 840.00 160 0.6% 21.60 2.57 CH-5 195: CS-6 197: CS-7 848.50 832.50 580 2.8% 7.81 2.87 CH-6 197: CS-7 196: OF-3 832.50 831.50 14.5 6.9% 66.10 7.53 CH-7 200: CS-8 197: CS-7 835.00 832.50 72.25 3.5% 52.87 5.77 CH-8 192: CS-5 200: CS-8 840.00 835.00 340 1.5% 21.60 3.50 CH-16 297: CS-12 200: CS-8 849.00 835.00 339 4.1% 42.03 5.19 1 1 1 1 1 1 1 1 1 1 1 1 Honda Aeronautics, Greensboro, NC 1 Pond Table Label Volume Type Initial Elevation (ft) Max.Hydraulic Grade (ft) Max. Storage (cu.ft.) PO-1 Elevation-Area 849.50 854.98 100,059.21 Outlet Structures e 1 1 1 1 Id Label Upstream Pond Has Control Structure 203 OS-1 184: PO-1 Yes ~ a=s 1 1 1 1 1~ 0 $ 855 m 854 853 •~ 852 m T 851 = 850 849 90 80 70 $ 60 0 50 ~ 40 30 20 10 0 120000 100000 80000 60000 40000 20000 0 100 Year Pond Data 0 2 4 6 8 10 12 14 Time (hours) 16 18 20 22 24 1 1 1 1 1 Honda Aeronautics, Greensboro, NC Catchment Table Label Outflow Node Area (sq.ft.) Tc (min) Composite SCS CN Peak Flow (cfs) Total Runoff Vol. (cu.ft.) CM-2 25: CB-4 10977 1.2 98.0 2.44 6641.6 CM-3 26: CB-5 10716 1.3 98.0 2.38 6478.1 CM-4 27: CB-6 8799.1 1.3 98.0 1.96 5327.9 CM-5 36: CB-15 8755.6 1.4 98.0 1.95 5304.4 CM-6 35: CB-14 8755.6 1.4 98.0 1.95 5307.8 CM-7 34: CB-13 6664.7 1.4 98.0 1.48 .4032.2 CM-8 33: CB-12 4399.6 2.4 98.0 0.98 2661.7 CM-9 33: CB-12 32714 6.3 74.0 5.04 12217.4 CM-10 33: CB-12 9104 2.8 98.0 2.03 5508.3 CM-11 30: CB-9 10062 1.6 98.0 2.24 6088.2 CM-12 28: CB-7 13024 3.4 83.1 2.50 5966.8 CM-13 29: CB-8 17598 4.0 90.1 3.71 9276.3 CM-14 37: CB-16 28880 4.1 84.9 5.70 13755.6 CM-15 38: CB-17 15769 4.1 88.4 3.26 8048.7 CM-16 32: CB-11 6011.3 1.5 98.0 1.34 3642.4 CM-17 31: CB-10 5314.3 1.4 98.0 1.18 3208.2 CM-18 23: CB-3 5619.2 1.7 98.0 1.25 3388.8 CM-19 39: CB-18 4704.5 1.3 98.0 1.05 2846.1 CM-20 40: CB-19 9626.8 2.5 92.0 2.07 5265.9 CM-21 41: CB-20 11456 2.3 91.1 2.46 6193.7 CM-22 21: CB-2 9104 2.1 90.4 1.94 4861.9 CM-23 19: CB-1 8102.2 1.8 92.8 1.78 4558.8 CM-24 61: CB-23 8320 2.3 98.0 1.85 5033.9 CM-25 60: CB-22 10759 1.9 98.0 2.42 6576.4 CM-26 59: CB-21 35937 2.8 95.1 7.91 20713.5 CM-27 84: CB-26 8799.1 1.3 98.0 1.96 5322.8 CM-28 63: CB-25 17468 3.1 86.1 3.50 8511.6 CM-29 62: CB-24 38071 2.2 90.7 7.59 19051.7 CM-30 138: CB-28 2265.1 1.1 89.0 0.47 1173.0 CM-31 175: MH-20 22390 4.6 98.0 4.99 13547.1 CM-32 176: MH-21 22390 4.6 98.0 4.99 13547.1 CM-33 167: MH-18 3964 2.1 98.0 0.89 2406.2 CM-34 168: MH-19 3964 2.1 98.0 0.88 2398.1 CM-35 177: MH-22 22390 4.6 98.0 4.99 13547.1 CM-36 159: MH-14 22913 4.6 98.0 5.10 13863.4 CM-37 160: MH-15 22913 4.6 98.0 5.10 13863.4 CM-38 161: MH-16 22913 4.6 98.0 5.10 13863.4 CM-39 162: MH-17 22913 4.6 98.0 5.10 13863.4 CM-40 156: MH-13 2265.1 1.4 98.0 0.50 1369.8 CM-41 155: MH-12 2265.1 1.4 98.0 0.51 1376.6 CM-42 153: MH-11 2265.1 1.4 98.0 0.50 1369.8 1 1 1 i t 1 CM-43 188: CS-2 139828 9.2 74.0 19.93 52213.8 CM-44 191: CS-4 125932 2.4 76.1 21.22 49476.5 CM-45 200: CS-8 119703 7.1 74.0 18.07 44704.3 CM-46 197: CS-7 81457 4.7 74.0 13.10 30417.9 CM-47 195: CS-6 91040 7.3 75.8 14.22 35524.5 CM-48 218: CB-29 71264 5.2 94.5 15.59 40654.6 rr rr r~ ~r ~r r ~r ri rr rr r r ~ +rr r~ r~ rr r ~r Honda Aeronautics, Greensboro, NC Catchbasin Table Label Ground Elev.(ft) Invert Elevation (ft) Capture Efficiency Is Flooded Ever? Max.Captured Flow (cfs) Max.Hydraulic Grade (ft) CB-1 871.83 858.53 100% FALSE 1.78 859.75 CB-2 872.53 858.92 100% TRUE 1.94 862.10 CB-3 869.74 859.35 100% TRUE 1.25 862.47 CB-4 866.31 861.90 100% TRUE 2.44 863.67 CB-5 867.21 861.69 100% TRUE 2.38 863.66 CB-6 867.37 861.33 100% TRUE 1.96 863.64 CB-7 873.56 869.28 100% FALSE 2.50 869.68 CB-8 872.31 867.63 100% FALSE 3.71 868.30 CB-9 868.98 859.58 100% TRUE 2.24 862.55 CB-10 870.44 861.01 100% FALSE 1.18 862.53 CB-11 871.20 862.67 100% FALSE 1.34 863.96 CB-12 866.29 860.13 100% TRUE 8.05 862.73 CB-13 867.39 860.25 100% TRUE 1.48 862.81 CB-14 867.80 860.61 100% TRUE 1.95 863.27 CB-15 867.53 860.97 100% TRUE 1.95 863.54 CB-16 871.81 865.98 100% FALSE 5.70 866.97 CB-17 872.06 864.32 100% FALSE 3.26 865.51 CB-18 876.04 871.70 100% FALSE 1.05 871.99 CB-19 875.02 870.56 100% FALSE 2.07 871.06 CB-20 873.94 868.92 100% FALSE 2.46 869.53 CB-21 878.23 868.19 100% FALSE 7.91 869.29 CB-22 880.83 875.53 100% FALSE 2.42 876.77 CB-23 882.58 878.30 100% FALSE 1.85 878.90 CB-24 880.83 870.70 100% TRUE 7.59 874.26 CB-25 880.44 870.28 100% TRUE 3.50 874.10 CB-26 879.60 875.35 100% FALSE 1.96 875.65 CB-28 882.30 879.90 100% FALSE 0.47 881.19 CB-29 877.50 873.50 100% FALSE 15.59 874.85 ~ ~ ~ ~ ~ r ~ ~ ~ ~ ~ ~ ~ +~ ~ ~ ~ ~ ~ Honda Aeronautics, Greensboro, NC Manhole Table Label Diameter (ft) Headloss Method Ground Elevation (ft) Invert Elevation (ft) Max. Hydraulic Grade (ft) Is Flooded Ever? MH-1 4 HEC-22 Headloss 867.00 851.65 857.04 TRUE MH-10 4 HEC-22 Headloss 881.50 869.63 873.81 TRUE MH-11 3 HEC-22 Headloss 882.58 878.33 878.90 FALSE MH-12 3 HEC-22 Headloss 882.85 878.44 878.90 FALSE MH-13 3 HEC-22 Headloss 883.33 878.68 878.97 FALSE MH-14 3 HEC-22 Headloss 883.67 879.84 881.27 FALSE MH-15 3 HEC-22 Headloss 883.56 879.46 881.25 TRUE MH-16 3 HEC-22 Headloss 883.37 878.86 880.87 TRUE MH-17 3 HEC-22 Headloss 883.40 878.15 879.64 FALSE MH-18 3 HEC-22 Headloss 881.05 870.45 874.18 TRUE MH-19 3 HEC-22 Headloss 881.00 869.77 873.89 TRUE MH-20 3 HEC-22 Headloss 883.39 881.50 882.37 FALSE MH-21 3 HEC-22 Headloss 882.55 880.64 881.77 FALSE MH-22 3 HEC-22 Headloss 883.71 881.15 881.96 FALSE MH-23 4 HEC-22 Headloss 858.00 851.23 856.81 TRUE Honda Aeronautics, Greensboro, NC Cross Section Table Label Manning's n Section Type Left Side Slope (H:V) Bottom Width (ft) Right Side Slope (H:V) eight (ft Invert Elevation (ft) Max.Hydraulic Grade (ft) CS-2 0.035 Trapezoidal 4 4 4 5 855.50 856.09 CS-3 0.035 Trapezoidal 4 4 4 5 855.00 855.69 CS-4 0.035 Trapezoidal 4 4 4 5 841.00 842.20 CS-5 0.035 Trapezoidal 4 4 4 5 840.00 841.12 CS-6 0.035 Trapezoidal 6 6 6 4 848.50 848.96 CS-7 0.035 Trapezoidal 6 6 6 4 832.50 833.66 CS-8 0.035 Tra ezoidal 4 4 4 5 835.00 836.36 CS-12 0.035 Trapezoidal 10 10 10 3 849.00 849.83 i ~ i i i i ~ i i i i i i i i i i i i Honda Aeronautics, Greensboro, NC Conduit Table Label Start-node Start IE Stop-node Stop IE Length (ft) Slope Diameter (in) Manning's 'n' Full Capacity (cfs) CO-1 17: MH-1 851.65 16: OF-2 851.0 129.5 0.5% 30 0.013 29.06 CO-2 19: CB-1 858.53 17: MH-1 851.7 118.3 5.8% 30 0.013 98.91 CO-3 21: CB-2 858.92 19: CB-1 858.5 77.3 0.5% 30 0.013 29.13 CO-4 23: CB-3 859.35 21: CB-2 858.9 86.0 0.5% 30 0.013 29.00 CO-5 39: CB-18 871.7 40: CB-19 870.6 71.0 1.6% 18 0.013 13.31 CO-6 40: CB-19 870.56 41: CB-20 869.4 71.0 1.6% 18 0.013 13.31 CO-7 41: CB-20 868.92 21: CB-2 867.8 71.0 1.6% 24 0.013 28.66 CO-8 28: CB-7 869.28 29: CB-8 867.6 71.0 2.3% 18 0.013 16.01 CO-9 29: CB-8 867.63 37: CB-16 866.0 71.0 2.3% 18 0.013 16.01 CO-10 37: CB-16 865.98 38: CB-17 864.3 71.0 2.3% 18 0.013 16.06 CO-11 38: CB-17 864.32 32: CB-11 862.7 71.0 2.3% 18 0.013 16.01 CO-12 32: CB-11 862.67 31: CB-10 861.0 71.0 2.3% 18 0.013 16.06 CO-13 31: CB-10 861.01 23: CB-3 859.4 71.0 2.3% 24 0.013 34.59 CO-14 33: CB-12 860.13 30: CB-9 859.6 110.2 0.5% 24 0.013 15.98 CO-15 30: CB-9 859.58 23: CB-3 859.4 45.0 0.5% 30 0.013 29.34 CO-16 . 25: CB-4 861.9 26: CB-5 861.7 42.3 0.5% 18 0.013 7.41 CO-17 26: CB-5 861.69 27: CB-6 861.3 71.0 0.5% 18 0.013 7.48 CO-18 27: CB-6 861.33 36: CB-15 861.0 71.0 0.5% 18 0.013 7.48 CO-19 36: CB-15 860.97 35: CB-14 860.6 71.0 0.5% 18 0.013 7.48 CO-20 35: CB-14 860.61 34: CB-13 860.3 71.0 0.5% 18 0.013 7.48 CO-21 34: CB-13 860.25 33: CB-12 860.1 22.3 0.5% 18 0.013 7.71 CO-26 61: CB-23 878.3 60: CB-22 876.0 227.5 1.0% 18 0.013 10.49 CO-27 60: CB-22 875.53 59: CB-21 873.0 94.5 2.7% 24 0.013 37.17 CO-33 84: CB-26 875.35 83: MH-10 873.3 48.0 4.2% 18 0.013 21.56 CO-34 83: MH-10 869.63 59: CB-21 868.2 287.0 0.5% 30 0.013 29.05 CO-38 138: CB-2 879.9 62: CB-24 877.8 104.1 2.0% 18 0.013 14.85 CO-39 153: MH-1 878.33 61: CB-23 878.3 6.1 0.5% 15 0.013 4.55 ~ . . a~ r . . ~^^~ . ~ r . . r . . . . a CO-40 156: MH-1 878.68 155: MH-1 878.4 48.3 0.5% 15 0.013 4.55 CO-41 155: MH-1 878.44 61: CB-23 878.3 26.9 0.5% 15 0.013 4.66 CO-42 159: MH-1 879.84 160: MH-1 879.5 37.9 1.0% 18 0.013 10.52 CO-43 160: MH-1 879.46 161: MH-1 878.9 59.4 1.0% 18 0.013 10.56 CO-44 161: MH-1 878.86 162: MH-1 878.6 30.3 1.0% 18 0.013 10.28 CO-45 162: MH-1 878.15 60: CB-22 876.8 136.6 1.0% 24 0.013 22.65 CO-46 63: CB-25 870.28 168: MH-1 869.8 101.2 0.5% 30 0.013 29.12 CO-47 168: MH-1 869.77 83: MH-10 869.6 26.8 0.5% 30 0.013 29.65 CO-48 62: CB-24 870.7 167: MH-1 870.5 49.3 0.5% 30 0.013 29.20 CO-49 167: MH-1 870.45 63: CB-25 870.3 33.7 0.5% 30 0.013 29.15 CO-50 175: MH-2 881.5 176: MH-2 880.6 42.6 2.0% 12 0.013 5.06 CO-51 176: MH-2 880.64 138: CB-2 880.4 11.9 2.0% 15 0.013 9.16 CO-52 177: MH-2 881.15 138: CB-2 880.4 38.0 2.0% 12 0.013 5.01 CO-54 218: CB-2 873.5 62: CB-24 870.7 280.0 1.0% 24 0.013 22.62 CO-55 59: CB-21 868.19 289: MH-2 851.2 82.9 20.5% 30 0.013 185.51 CO-56 289: MH-2 851.23 15: OF-1 851.0 45.7 0.5% 30 0.013 29.11 CO-57 203: OS-1 849.3 297: CS-12 849.0 60.0 0.5% 36 0.013 47.16 1 Honda Aeronautics, Greensboro, NC Channel Table Label Start-node Stop-node Start Invert (ft) Stop Invert (ft) Length (ft) Slope Max.Flow (cfs) Max.Velocity (ft/s) CH-2 188: CS-2 189: CS-3 855.50 855.00 10 5.0% 19.93 5.32 CH-3 189: CS-3 191: CS-4 855.00 841.00 532 2.6% 19.93 4.25 CH-4 191: CS-4 192: CS-5 841.00 840.00 160 0.6% 39.37 3.01 CH-5 195: CS-6 197: CS-7 848.50 832.50 580 2.8% 13.88 3.44 CH-6 197: CS-7 196: OF-3 832.50 831.50 14.5 6.9% 142.85 9.24 CH-7 200: CS-8 197: CS-7 835.00 832.50 72.25 3.5% 121.67 7.57 CH-8 192: CS-5 200: CS-8 840.00 835.00 340 1.5% 39.37 4.15 CH-16 297: CS-12 200: CS-8 849.00 835.00 339 4.1% 87.68 6.35 1 i 1 i 1 1 1 1 1 1 1 Honda Aeronautics, Greensboro, NC 1 Pond Table Label Volume Type Initial Elevation (ft) Max.Hydraulic Grade (ft) Max. Storage (cu.ft.) PO-1 Elevation-Area 849.50 855.72 121,325.76 ' Outlet Structures 1 1 1 1 i 1 1 1 1 1 Id Label Upstream Pond Has Control Structure 203 OS-1 184: PO-1 Yes