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Home My WebLink AboutMIDDLE CREEK VILLAGE STORM WATER DISCHARGE LEGALP.2Jul ZZ O3 O1:32P Bill Owens, ,--ovemor Douglas H. 6enevento, Executive Director DedicatedtopoteaingaodimprovinithehealthandenvircrlmentoithepeapleoiColorcdo 4300 Cherry Creek Dr. 5. Laboatory and Radiation Se'vices Division denver, Coiorado e O246-15JO 8100 LowD' Blvd' Phone a3O3) 692-2000 Denver. Colorado 80230-6928 TDD Line (3o3) 691-7700 (303) 692-3090 Located in G lendale, Colorado htp{,4ttrt, cdphe,stale.co. us Juiy 11, 2003 Bo Simon, Project l'4aaager I{eidor Colstructioa Inc. 6350 County Roati 335 New Castle, CO 81647 970/984-25r5 RE: Firral Permil, Colorado Discbarge Permit Systen- stormwater STATE OF COLORADO Colorado Department of Public Health and Environrnent Anticipated Activity: 07 1LSD003 through Ogl0l/2004 On 10 acres (7 acres clisturbed) Dear Sir or lr{adaur Enclosed please litd a copy of the permit cettification that was iSsued to you unde't the Colorado Water Quality CoDtIol Your certificaliou under the permit rcqulrss ti:at specific actions be performed at designated timss You are iegally obligated to comply with all te ns and conditions of your ccrtification' J\*ote that Ore stonDwaEr perm.it foI coastruction activities now co!'ers construction sites disru:bing dou'n to one-acre (the Dlevious threshold uas 5 acrcs). Effcctive Ju!., I, 2 00,2. an)' constuctiotr activity thet disturbs a( least I acre of land (or is Iliillrir"J;;""--" pt." o'raii'"rof-""t 6r sale rfiat vill disrud) at least 1 acre) rmst applv for pern:it coverage' please read the psanit and cerlilicalion. If you have an1' questions please r"isit our website at iril;,/*;;; "dph"-ror"..o.or/*q/permitsunit/*'qcclpnrt.hirnl, or contact Matt Czahor at ('103) 692-3575' Sincerely, /1/u4494 Kathryr DolEi' C"l* Certification No: Local Contact: Stormwater ?logram Coot'dinator ?ermits Unil \VATER QUALITY CONTROL DIVISION Enclosule xc: Rcgional Clor.:ncil oi Cove:1ul)ents Loccl Corrntl' llealth I)eFarmrent Districi ilnc.ir,t,':r'. Tcclrlicnl Servrces' \\QCl-r P el-r );i l'ili COR-035430' Eagle CountY Middle Creek Village Bo Simon, Project Manager, 9101 984'25t5 JUL 22 O3 O1:32P Pernit No. COR-030000 Facility No. COR-03543 0 PAGE I of17 CERTIFICATION CDPS GE,NERAL PERMIT STORh/flWATER. DISCHARGES ASSO CXAT'ED WITI{ CCNSTRUCTION Construction -Activity: The construction actir"ity includes excavatio:r for a Stucture ard utilities. This permit specifi ca1ly authorizes: Meldor Construction fnc. to discharge stormwater from the facilitir identified as Mddle Creelc Village rvhich is located at: 101 Mabelle Circle Vail, Co 81631 latitude 39/38/'76,longitude 106/22/86 in Eagle County Gore Creek to: effecrive: 07!08/2003 Arurual Fee: $449.00 (DO NOT ?A\a NO\\f. You will receive a prorated bill.) p.3 \ I I I I t t I I I I I t t I I t T I I ' STI)R}IWATE}I MANAGEh{ENT PL.A.I{ BIIST I{AU.A(;EM!I'!IIT f'RACTICES l'cl-.. MIDDLE CRE EK .4!.,'FORDAB-LE IIQUIiING Tcw:r of Vail. Ea$e CtarultV, Colorado March 2003 Preparei For: Coughiin & Company. Inc. 140 E. l9t}r Ave., Suite 7C[) Denver, CC 130203-1035 PrepareC by: Peak Civil Enginecring 1000 Lion's Ridgs Loop Vail, CO 81657 rl t I I I t T I I T T I I I t I I I I I Storm$at€r Managemenl Plan Middle Crcek Affordable Housing SITE DESCRIPTION AND EXISTING CONDITIONS The proposed Middle Creek Affordable Housing development consists of 142 aparnnent style units anO an Early Learning Center on a6.673 acre site. The site is bound by the Qwest lot and building (Mountain Bell Tower) to tle northwest, open space to the north and west Town of Vail BLM Lot I to the eas! and loterstate 70 Highway ROW to the south. Middle Creek runs along the sites westem border and enters an existing culvert under the North Frontage Road. The housing units will be located in three buildings on the site, one of which will include an underground parking garage. The Early Learning Center @LC) will be located in a separate building on the southeast corner ofthe site. The existing site is comprised of two daycare buildings that will be relocated into the proposed ELC, an aciess drive, associated parking, and open space to the east. The site generally slopes and drains from the north to south. Slopes range from moderate on the southem portion of the site to steep (>40y") on the northern portion of the site. Vegetation on the undeveloped portion of the site consists of cottonwoods to the west, sage brush and small aspen gtoves on the center and eastem portion ofthe site, and sage and conifers on the northern steeper slopes ofthe site. Soils on the site are of hydrologic soil type C as indicated on the US Forest Service soil maps. Elevations on the proposed developed portion of the site range from approximately 8205 feet above mean sea levefto 8280 feet. Stomrwater runoffwill be the only component of discharge from this site. PROPOSED CONSTRUCTION ACTIYITY Proposed constnrction activity for development consists of4 buildings (3 residential, I daycare), associated access drives and parking, widening ofthe North Frontage Road, pedestian paths, and associated infrastrrcture as shown on the plans. EROSION AI\D SEDIMENT CONTROL Stabilization techniques should be emphasized throughout the construction process. Use of sediment removal devices shall be used as an additional mqnure to minimize offsite sediment transport from disturbed areas. If an area remains exposed or inactive for more than 14 days a suitable means of stabilization shall be implemented to control erosion. Surface roughening, mulching, or mulching and seeding arJall effective means of stabilization. Slopes greater than 15% shall be stabilized with hydromulching, erosion control blankets or a similarly effective approach. Final stabilization of alt disturbed areas shall occur within seven days ofreaching final grade. The use of silt fence, straw bale dikes and stone check dams should be implemented throughout the site downgradient of all disturbed areas. The use of stone check dams or equivalent measures should be emphasized at the inlet of all culverts and curb inlets to prevent sedimentation of stormwater clrainage structures. Sediment buildup shall be periodically removed from behind staw bale dikes and stone check dams during routine inspections of the stormwater management I Slormwatu Managem€nt Plan Middle Creek Affordable Housing t system. Silt fence will be installed properly, and kept in working condition throughout the proJecl. I Temporary ditches and sediment removal ponds used to direct stormwater during construction shall be seeded, fertilized and mulched as soon as they are installed. Once construction is I complete and the disturbed areas are stabilized, temporary ditches and sediment removal ponds I are to be removed and the disturbed area from this activity shall be stabilized appropriately. I Limits of disturbance shall be minimized with a priority placed on protection of existing I vesetation. Anv activities outside of the limits of disturbance associated with the road coistruction, such as the construction of water, sewer liaes and shallow utilities shall be I stabilized appropriately.T Off-site soil tracking shall be limited by providing a stabilized construction entrance on the site. I The contractor will be responsible for minimizing the tracking of soil off-site by maintaining ther construction entrance with the addition of more crushed stone as required. The public roadway shall be swept or washed using a mechanical sweeper should mud be tacked onto it. Any areas I subject to rutting will be stabilized immediately. I],ust contol m€asures shall be irnplemented tor minimize the transport of airbome soil from disturbed areas. Exposed areas shall be periodically moistened with water adequate to prevent dust. Ir Final stabilization is reached when all soil disturbing activities at the site have been completed" r and uniform vegetative cover has been established with a density ofat least 70 percent ofpre- I disturbance levels, or equivalent permanent, physical erosion reduction methods have been employed. - MATERIALS HANDLING AI\D SPILL PREVENTION I The major potential pollution sources will include on-site vehicle fueling by mobile fuel trucks and fertilizers or chemicals used on-site. Maintenance on equipment and fueling will take place I on site wherever the construction equipment is working. Care will be taken to avoid spills I during maintenance and fueling operations. Accidental spills shall be cleaned up immediately with chemical absorbent pads. Mobile fuel trucks should be utilized for fueling operations. If I temporary fuel tanks are utilized a secondary containment berm shall be constructed and lined I around the tank. The berm shall be constructed to contain a minimum volurne equal to the size of the storage tank. The contraator shall prepare a plan to mitigate any potential chemical, fuel or r other hazardous material spills. There shall be no fertilizers or chemicals left exposed to the I elements. I Stockpiles of topsoil and road base material shall have proper sediment controls such as silt I fence surrounding the base ofthe stockpile. Exposed stockpiles left inactive for more than 14 days shall be mulched or stabilized. I I I I I I T I T I T T T I T T I I T I T I Stormwat€r Managemenl Plan INSPECTIONS Middle Creek Affordable Housing It is the responsibility of the contractor to obtain a stormwater discharge permit from the Colorado Department of Public Health and Environment, Water Quality Control Division, for construction activities that disturb one acre of land or more at least l0 days prior to the anticipated date of discharge. In addition, the contractor is responsible to abide by all requirements of the stormwater discharge permit. The conhactor shall make a thorough inspection of the stormwater management system at least every 14 days and after any precipitation or snowmelt that has the potential to cause surface erosion. The contractor shall inspect the erosion and sediment contol measures on the site to ensure that they are maintained and operating conectly. In addition, general maintenance shall be performed regularly, to institute preventive measlues that would improve the efficiency of the stormwater management system. The contractor shall revise and modiff any descriptions ofpotential pollutant sources and pollution prevention and contol measures, based on the inspection. Modifications to any pollution prevention and contol measures shall be made in a timely manner, but no later than seven calendar days after the inspection. The contractor shall keep an inspection log documenting any defects and corrective actions taken to mitigate deficiencies in the stomrwater management plan. Typical inspections shall check road ditches, culvert inlets and outlets, silt fence, temporary sedimentation ponds and any slopes where rutting may occur. The inspection logs shall be made available to the Colorado Deparfrnent of Public Health and Environment, 'Water Quatity Control Division upon request. The contractor shall retain copies of the stormwater discharge permig stormwater management plaq inspection logs and any other associated documentation for a period ofat least three years from the date that the site is finallv stabilized. RETENTION OFRECORDS The contractor shall retain a copy of the Storm Water Management Plan at the construction site from the date ofproject initiation to the date offinal stabilization. lnspection logs shall be kept on the construction site documenting all activities associated with implementing the Storm Water Management Plan. The contactor shall retain copies of the Storm Water Management Plan and all reports required by this permit and records of all data used to complete the application to be recorded by this permit, for a period of at least three years from the date of final stabilization. Details T I I t I I I t I T t I I I I I -T 10'-I .- EXISTING PAVEMEI'IT\ -T 10' -I EXISTING PAVEMENT EARTH PROFILT MOUNTABLE BERM (0ProNAL) CONSTRUCTION SPECIFICAIONS STONE SIZE - USE 2'' CRUSHED SCREENED ROCK. LENGTH - AS REQUIRED, BUT NOT LESS THAN 50 FEET. THICKNESS - NOT LESS THAN SIX (6) INCHES. WDTH - TEN (10) FOOT M|N|MUM, BUT NOT LESS THAN THE FULL WIDTH AT PoINTS WHERE INGRESS OR EGRESS OCCURS. FILTER CLOTH - WILL BE PLACED OVER THE ENTIRE AREA PRIOR TO PLACING OF STONE. SURFACE WATER - ALL SURFACE WATER FLOWING OR DIVERTED TOWARD CONSTRUCTION ENTRANCES SHALL BE PIPED ACROSS THE ENTRANCE. IF PIPING IS IMPRACTICAL, A MOUNTABLE BERM WITH 5:'] SLOPES WLL BE PERMITTED. 7. MAINTENANCE - THE ENTRANCE SHALL BE MAINTAINED IN A CONDITION WHICH WILL PREVENT TRACKING OR FLOWING OF SEDIMENT ONTO PUBLIC RIGHTS-OF-WAY. THIS MAY REQUIRE PERIODIC TOP DRESSING WITH ADDITIONAL STONE AS CONDITIONS DEMAND AND REPAIR AND/OR CLEAN OUT OF ANY MEASURES USED TO TRAP SEDIMENT. ALL SEDII/ENT SPILLED, DROPPTD, WASHED OR TRACKED ONTO PUBLIC RIGHT_OF-WAY MUST BE REMOVED IMMIDIATELY. 8. WASHING - WHEELS SHALL BE CLEANED TO REMOVE SEDIMENT PRIOR TO ENTRANCE ONTO PUBLIC RIGHTS-OF-WAY. WHEN WASHING IS REQUIRED, IT SHALL BE DONE ON AN AREA STABILIZED WITH STONE AND WHICH DRAINS INTO AN APPROVED SEDIMENT TRAPPING DEVICE. 9. PERIODIC INSPECTION AND NEEDED MAINTENANCE SHALT BE PROVIDED AFTER EACH RAIN. 10. STABILIZED CONSTRUCTION ENTRANCE MUST BE INSTALLED BEFORE BEGINNING CONSTRUCTION. 1. 2. 5. o- EXISTING I I I ON-STRU TION EN I t I t I I I I I I I T T I T I t I I "urrr*, -/ PLAN VIEW 1 CULVERT NOTES:SECTION A_A GEOTEXTILE 1) usE 2" TO 3" STONE. 2) PLACE STONE OVER GEOTEXTILE. 3) ONCE THE AREAS UPSTREAM FROM THE CHECK DAM ARE STABILIZED BY VECETATION, THE SEDIIVENT TRAPPED BEHIND/WITHIN THE DAM SHALL BE RELOCATED TO AN AREA UNDERGOING FINAL GRADING. 4) THE CHECK DAMS SHALL BE FLATTENED AND GRADED IN A MANNER WHICH PROTECTS THE AREA FROM EROSION AND CHANNEL BLOCKAGE. (CEOTEXTILE MUST BE REMOVED). THE GEOTEXTILE SHALL BE DISPOSED OF OFFSITE. THE AREA CONTRIBUTORY TO THE CHECK DAM SHALL NOT EXCEED 1O ACRES. TEMPORARY ROCK CHECK DAM AT CULVERT ENTRANCE o,, PIPE DIA l5'7' l8' 7' 30"6 O ' oo'- . oOo o'-o -O O\FMEN"o ^o i^": o?l-\ F"{."-""r: "ffi";y6. ir$a L..u-s- oo 0 3t'.:""1 W ,Z NOT TO SCALT (14 1/2 GA. WITH FILTER I I I I I t T I I I I t t I I I I I I WOVEN t\4AX. 6" lvlRE FENCE (MrN. 14 1/2 GAUGE, MESH SPACING) 36,, MIN. FENCE POSTS, DRIVEN MIN. 16" INTO GROUND ,y ,y t I HEIGHT OF FILTER = 16" MlN. I 8" MlN. t I WO!€N WIRE FENCE 6" MESH SPACING) PERSPECTIVE VIEW CLOTH SILT FENCE N.T.S. FENCE POST UNDISTURBED GROUND 16" MtN. POSTS: STEEL EITHER T OR U TYPE OR 2'' HARDWOOD. FENCE: WOVEN wtRE, 14 1/2 GA. 6" MAX. MESH OPENING. FILTER CLOTH: FILTER X, MIRAFI 100X, STABILINKA T14ON OR APPROVED EQUAL. PREFABRICATED UNIT: GEOFAB, ENVIROFENCE, OR APPROVED EQUAL. EMBED FIL]ER MIN.8,'INTO f "l' I 20" MrN. GROUND SECTION CONSTRUC'TION NOTES FOR FABRICATED SILT FENCE 1.WOVEN WIRE FENCE TO BE FAS]ENED SECURELY TO FENCE POSTS WITH WRE TIES OR STAPLES. FILTER CLOTH TO BE FASTENED SECURELY TO WOVEN WIRE FENCE WITH TIES SPACED EVERY 24'' AT TOP AND MID SECTION. WHEN TWO SECTIONS OF FILTER CLOTH ADJOIN EACH OTHER THEY SHALL BE OVERLAPPED BY SIX INCHES AND FOLDED. 4. MAINTENANCE SHALL BE PERFORMED AS NEEDED AND MATERIAL REMOVED WHEN "BULGES" DEVELOP IN THE SILT FENCE. I I I I I I T I T I I I I I t I I I I SR" W (PREIIRRED) [V w - UNROLL MAT ONTO GROUND IN DIRTCTION OF T/AIER FLO['. - MAT SHOULD LIE FLAT. DO NOT STRETCH MAT OVER GROUND, STRETCHING MAY CAUSE MAT TO BRIDGE DEPRESSIONS IN THE SURFACE AND ALLOliv IROSION UNDERNEATH - BURY TRANSVERSE TERMINAL TNDS OF MAT TO SECURE AND PREVENT EROSIVE FLOW UNDERNIATH. - SECURE MAT SNUGLY INTO ALL TRANSVERSE CHECK SLOTS. - BACKFILL AND COMPACT TRENCHES ANO CHECK SLOTS AFTER STAKING THE MAT IN BOTTOM OF TRENCH. - OVERLAP ROLI ENDS BY IHREE (3) FEIT (|',|IN.) $IITH UPSLOPE MAT ON TOP TO PREVENT UPLIFT OF MAT END BY WATER FLOW. IF INSTALLING IN THE DIRECTION OF A CONCENTRAIED WAIER FLOU START NEW ROLLS IN A TRANSVERSE DITCH. - OVERLAP ADJACENT EDGES 0F MAT BY ]HREE (3) TNCHES (MrN.) AND STAIG. - WOOD STAKES ARE RECOMMENDED FOR PINNINC MAT TO IHE GROUND SURFACE. STAKES SHOULD BE I" X 3, NOMINAL STOCK CUT IN A TRIANGULAR SHAPE, STAKES SHOULD BE 12' TO 18' LONG, DEPENDING ON SOIL DENSITY, - DRIVE WOODEN STAKES TO WI1NIN THRIE (3) INCHES OF GROUND SURFACE. DO NOT DRIVE FLUSH 1O SURFACE. - IN ALL TRANSVERSE TIRMINAL TRENCHTS AND CHECK SLOTS, STAKT TACH MAT Ai ITS CINTER AND OVTRLAP EDGES BEFORE BACKFITTING AND COMPACTING. - STAKE oVERLAPS LoNGTIUDTNALLY AT INREE (3) T0 nW (5) F00I INIERVALS. GENERAL /N.STALLATION GUIDELINES FOR EROSION CONTROL BLANKET TERMINAL TRENCH TDGE CAP N. T. S. o:?4frU..' O 6(-) ", o^Y,,"n U aq/-- 6.*o 10 rr",- o o^ oi A i "O"o o ' -o -C() -r"o?.-C U --, o A ===-1\J Q 11 u LJ o r' O c^Ov tJ/ (\ \J vtl o-o o ?,0 9DXn O Ccg?st o O.p,g ? OP-, ci. ( t Y ri lh ."Y s:OQIC o -o,l rNLET/0UTLtT PLAN VITW \-RIP-RAP HTADWALL ST DsO NOTED ABOVT UNLESS THIRWISE SPTCIFIID ON PLANS. | """""" I UNDTRLAY RIP-RAP WITH 6" OF GRAVEL OR GTOTEXTILE. USE WIDTHS NOTTD ABOVT OR CONFORM TO NATURAL CHANNEL OR TOPOGRAPHY. RIFER TO RIP-RAP HEADWALL DETAIL FOR HEADWALL SPECIFICS. 6,' GRAVTL OR GIOTTXTILE RIF-RAP AFRON = I I II U 0 U L W D50 12"J -l 4" t:)A'-T A'4" t0 J b 0 1n"L-6 d 0 9'(J 6 JO 10'10'0 CROSS STCTION N. T. S. NOTIS: .I. MATTING/BLANKIT SHALL BE INSTATLED WITHIN THT SWALE, EDGES SHALL OVIRLAP BY 6" AND Bt SICURETY STAPLED. AVOID OVERLAP IN BOTTOM OF FLOW CHANNEL WHERE POSSIBLI. 2. L0AM|NG AND SEEDING SHALL Bt DoNt PR|0R T0 INSIALLATION 0F THE MATTING/BLANKEI (sEE EROS|0N CoNTROL NoTES FoR RATTS). 3. MATTING/BLANKTT SHALL BE SUITABLT FOR HIGH VTLOCITY DITCH LINING 4' WIDI MINIMUM, TANDLOK 435, BY SYNTHETIC INDUSTRITS OR CURLIX III BY AMERICAN TXCELSIOR COMPANY. It'/ A. BURY THE IOP IND OF THE MATTING/BLANKTT STRIPS IN A TRENCH 6 INCHIS OR MORI IN DEPTH. B. TAMP THT TRENCH FULL OF SOIL, STCURE WIH ROI'/ OF STAPLIS, 6-INCH SPACING, 4 INCHES DOWN FROM lHE TRENCH. C. OVERLAP - BURY UPPTR IND OF LOtvER STRIP AS IN 'A, AND '8,. OVERLAP END OF TOP STRIP AND STAPLE. 'vD. EROSION STOP - FOLD OF MATTING/BLANKET BURIED IN SLIT TRTNCH AND TAMPED; DOUBLI ROW OF STAPLES. I I V, ,"t /7,fur, STAPLE OUTSIDE EDGE ON 2-FOOT CINTERS. TYPICAL STAPLIS NO. 11 GAUGE WIRI-T- -rr-\iillal llrr r-l I Ill_Ll Ii --l-J t..t^n It-tlt - WATERWAYS STABILI ZATI ON %,2, /rrrrZ ,/////,,t/zlz, Vz ri'm, /, l"' i,, / {"tt ///"U //;^"^>--_:+*, '/ , "' , l'l ,'lY/r,'/ttt'(/t','.t /// /*(" / tt^t.y'^x<^//Yt,ffir'/ ,'.'///7;,' // /: // / / /V"//9 r,/il2, Z a .rZ/i:1',,'/f'\7 /// 7// l./277/ // ) 1/tZ (Utt/ //1,_t, WITH MATTING N. T. S. LAN KET I I I I I I I I I I I T I I I I I I I r I N II PLAN VIEW VARIES SHOULDER FINISH GRADE 4,' TOPSOIL & SEED IXISTING GROUND 3"-4" SIONI TEMPORARY ROCK CHECK DAM !o 9oo6> o oo ?ooD =1i"$[ / 'oY"oo/ 0 ^ou ^oooojo ploo "J oe a"d 9oo opoaa^4p opoa O_ O_ n " O O_ nO" Oo o-<) o-O o"C 9o 9ooo"d l9ooo- o.ooJo o;0.]o ooo^o oeloo ;' ,9,d ofoo \"8s":s = lg:":"? "7ooooo' o c"oo 6 i4gS.^d.rfsi3?p.: N.T.S. T I t I T t I I I I I I I I I I I I T FLOW STAKE TOWARD LAID BALE STRAW BALE DIKE \t t/tt//a|&r,'A I l'//./t- \ 'vt ' ll.- ,' Zij!--lL5-i7 BEDDING DETAIL tr ^tr ANGLE FIRST PREVIOUSLY FLOW )//4lt///t/ BOUND BALES PLACED ON CONTOUR 2 RE-BARS, STEEL PICKETS, OR 2"x2" STAKES 1 1/2' rO 2' rN GRoUND, DR|VE STAKES FLUSH WITH BALES. .,17lv-9-"'--- liila-" ,,,, R,i 2 1. a J. 5. CONSTRUCTION SPECIF CATIONS BALTS SHALL BE PLACED AT THE TOE OF A SLOPE OR ON THE CONTOUR AND IN A ROW WITH ENDS TIGHTLY ABUTTING THE ADJACENT BALES. EACH BALE SHALL BE EIMBEDDED IN THE SOIL A MINII\/UIM OF (4) INCHES, AND PLACED SO THE BINDINGS ARE HORIZONTAL. BALES SHALL BE SECURELY ANCHORED IN PLACE BY EITHER TWO STAKES OR RE-BARS DRIVEN THROUGH THE BALE. THE FIRST STAKE IN EACH BALE SHALL BE DRIVEN TOWARD THE PREVIOUSLY LAID BAIE AT AN ANGLE TO FORCE THE BALES TOGETHER. STAKES SHALL BE DRIVEN FLUSH WITH THE BALE. INSPECTION SHALL BE FREQUENT AND REPAIR REPLACE[4ENT SHALL BE MADE PROMPTLY AS NEEDED BY THE CONTRACTOR. BALES SHALL BE REMOVID WHEN THEY HAVE SERVED THEIR USTFULNESS SO AS NOT TO BLOCK OR IMPEDE STORI4 FLOW OR DRA]NAGE. VERTICAL ANCHORING DETAIL STRAW BALE DIKE I t I I I I I I Site Mao and Plan I I I I T t I I I t I I I T I t I I DRAII{.AGE PJP,)ii] ., Middle Creek .lfl'ordable Housing Project I i .rr ^--_ _E rr^:t yr_-_r - ,a1-___L. -,-r^_^, -r Town of Vail, Eagle Conn{v, ColoradoI I PreparedFor: r Coughlin & Company, Inc.r ';:"x"13#a!l';# I I r".kcrTiBilf'*og, in.. I 1000 Lio{"s Ria;;l*n t I I I I March..2003 I I I Table of Contents I *"oorrt."Ooo PageI l. Introduction 3 t 2. Pre-Development Conditions 3 3. Post-Development Conditions 4II 4. Hydrology and Hydraulic Modeling and Calculations 5 ,. 5. Stormwater QualitY AnalYsis 7 I 6- Erosion and Sedimentation Control 7 r 7. Sunmary 7 T I AppendixA- MapsandDrainagePlan I Appendix B - 2-Year Storm Post-Development Drainage Data I Appendix C - 5-Year Storm Post-Development Drainage Data t Appendix D - l0'Year Storm Post-Development Drainage Data I AppendixE - 2l-Year StormPost-DevelopmentDrainageData I Appendix F - 50'Year Storm Post-Dwelopment Drainage Data I Appendix G - 100-Year Storm Post-Development Drainage Data r Appendix H - Drainage Details I Appendix I - Stomr Sewer Plan I I t I I t I Drainage Report Middle Creek Alfordable Housing Town of Vril, Eagle County, Colorado For: Coughlin & Company, Inc. I. Introduction The proposed Mddle Creek Affordable Housiag development consists of 142 aparhent style units and an Early Leaming Center on a 6.673 apre site. The housing units vyilt be located in three buildings on the sitg one of which will include an undergrognd parking garage. The Early Learning center (ELc) will be located in a separate building on the southeast comer of ttre site. The site is bound by the ewest lot and building (Mountain Bell rower) to the northwes! open space to tle north and west, Town of Vail BLM Lot 1 to the east and Interstate 70 Highway Row to the south. Middle Creek runs along the sites westem border and enters an existing culvert under the North Frontage Road. The 'Hydro-cAD stormwater Modeling System' cqmFuter rnogram (version 6.0) was used to perform the hydrologic and hydraulic analysis of the proposed dwelopm.ent's stomwater nmoff. Runoffquantities were estimated and hydraulic capacities of the proposed drainage system were analyzed using the program. This program is a derivative of the USDA SCS TR-20 Hydrologic Method. 2. Pre-Dwelopment Conditions The existing site is comprised of two buildings, an access drive from the North Frontage Road, associated parking, and open space to the east. The two existing daycare buildings cunently utilizing the site will be removed and tle daycare program will be relocated into tle proposed ELC upon completion ofthe project. The existing drive also provides access to the Qwest lot and 'Mountain Bell Tower'. Access to this lot will be maintained with the proposed development plan. I I I I I I I T T I I I I I I I I I I T T I I I I t t T T I I I T I I I T I The site slopes and drains from the north to soulh. Slopes range from moderate on the southem portion of the site to steep Q40o/o) on the northem portion of the site. Vegetation on the undeveloped portion of tle site consists of cottonwoods to the west, sage brush and small aspen groves on the center and eastem portion ofthe site, and sage and conifers on the northern slopes of the site. Soils on ttre site are of hydrologic soil type C as indicated on the US Forest Service soil maps. The western Yt of the tils dlains to Mddle Creek at the westem boundary of the site. The remainder of the site drains into the roadside ditch along the Frontage Road, where runoff flows east and is directed into an existing inlet on the north side of the I-704{orth Frontage Road interchange roundabout. Middle Creek flows from north to south, approximately 250' west of the Mountain Bell Tower. The Midalle Creek drainage ba.sin is app:roximately 6 square miles and is included in the Flood Insurance Study of the Town of Vail dated Novemb er 2, 1982. "I\e hydrology of the drainage basin will remain largely unchanged as a result of the proposed development. The 100-yearfloodplainbasedonsheandeptfu as shownonfloodprofile panels 07P thu 09P has been delineated and is shown on the Draiaage Plan and Stonn Sewer Plan in the Appendix. . 3. Post-DevelopmentSiteConditions Two access locations are proposed for the site from the North Frontage Road. The western access is the main entrance to the housing units and also consists of a separate bus entrance and stop. The access drive climbs up the site to the parking garage entance and contains at-grade parking along the northem boundary ofthe site. The eastem access consists of the entrance to the Early Leaming Center, al-grade parking, and a vehicle drop-offloop. The drives, parking areas, and site has been graded and drained in a manner to resemble existing drainage patterns. In addition to the drives, parking areas, and buildings; the site consists of interior parhs and walks, a recreation field/are4 a widening of the North Frontage Road, and a pedesnian path adjacent to the North Frontase Road. Stormwater will be collected tbrougheul ths site via grass lined swales, curb and gutler, and storm sewer. The site was divided into 13 subcatcbments in order to analyzerunoff quantities and size hydraulic stuctures. The east drainage area consisting of subcatcbments 10-85 directs runoffto the existing inlet at the roundabout to the easL The existing roadside ditch that historically carried this flow will be replaced by a slorm sewer and curb and gutter system along the north side of the Frontage Road- The west drainage area consisting of Subcatchments 90-110 dirests nrnoffto Middle Creek tbrough a proposed storm sewer system. overall historic flow pattems from the east and west drainage areas remain largely uncbanged with the proposed development. Offsite Runofffrom subcatchments 50 and 90 wiU be collected in culverts (points 50p and 90P on Drainage Plan) and routed to the storm sewer system before entering the developed portion of the site. This will keep the majority of off-site water fiom flowing along the surface of the developed portion of tle site, All other sgrface runoffwill be collected via the cr:rb and gutter and storm sewer system. shovm on the Drainage plan. Additionally, the Storm Sewer Plan in the Appendix shows a detailed layout of the cgrb and gutter and storm sewer system. 4. Hydrologic and Eydraulic Methodolory and Calculrtions As stated previously, the site was broken into 13 subcatchments for the purpose of analyzing hydrologic runoffand the hydraulic capacities of drainage sfructures. A rmique subcatchment was delineated for all inlet points into the storm sewer system. This was done so that the quantity of stormwater runoffinto each respective inlet (i.e. curb grate/inlet and culvert inlet) could be estimated and the stucture sized to adequately convey the calculated stomwater. The Post-Development Drainage Data in the Appendix shows time of concentration, areasi, cwve numbers, and all associated calculations used to estimate stormwater runofffrom each subcatchment. Pond Points were established at each inlet point to model stomrwater flow and aaalyze the capacity of each inlet. The type of each inlet (i.e. type l3c curb inle! culvert inie! etc.) was modeled so that the associated capacity could be accurately predicted. Minimal ponding depths around each inlet were estimated based upon the site and Gracling plan. I I I I I I I t I I I I T I I t I I I I I I I T I I I I T T t T I t I I t I Reaches were created, based upon the proposed storm sewer design, and are shown on the Drainage Plan. The reaches were modeled to estimate the capacity of each particular stom sgwer segment and to calculate the travel time from one subcatchment to another. The Post-Development Drainage Data in the Appendix shows the quantity of runofffrom each subcatchmenl capacity ofinlets (pond points), and capacity ofall storm sewer runs (reaches). Reach 83 conveys all stormwater from subcatchments 10-85 and reach 1l I conveys all stormwater from subcatcbments 90-110. The following table shows projected runoff rates for all subcatchments as well as total flows in reaches 83 and 1l I ' T\e 2, 5,10,25, 50, and 100 year events were analyzed. East Drainage Area Subcatchment 2-yt (cfs) 5-yr (cfs) 10-yr (cfs) 25-w (cfs) 50-yr (cfs) 100-yr (cfs) l0 0.33 0.49 0.60 0.67 0.78 0.86 20 0.18 0.42 0.63 0.77 1.00 1.15 30 0.63 1.09 1.45 1.69 2.06 2.30 40 0.06 0.23 0.39 0.51 0.70 0.84 50 0.03 0.51 1.73 2.87 4.95 6.56 J)0.90 1.31 1.62 1.82 2.t2 2.32 60 0.15 0.22 0.27 0.31 0.36 0.39 70 0.t7 0.43 0.65 0.81 1.06 1.23 80 0.00 0.10 0.34 0.56 0.94 1.22 85 0.42 0.80 1.10 l.3l 1.63 1.84 Reach 83 2.46 4.35 6.11 7.52 10.04 I1.98 West Drainage Area Subcatchnent 2'yr (cfs) 5'yr (cfs) 10-yr (cfs) 25-yr (cfs) 50-yr (cfs) 100-yr (cfs) 90 0.00 0.13 0.30 0.44 0.68 0.84 100 0.37 0.60 0.76 0.87 1.04 1.15 110 0.42 0.63 0.78 0.88 1.04 t.l4 Reach 111 0.78 1.23 1.76 2.t3 2.69 3.70 The hyfuaulic calculations show that the proposed stom sewer system will adequately convey peak runofffrom all events up to and iacluding the 50-year. The 100-year event will create small amounts of ponding at inlet point 70P during the peak runoffperiod. This backup poses no tbreat to any stuctures and any backup will continue to flow down the curb and gutter system. 5. Stormwater Quality Analysis The proposed dwelopment plan features many meruilres to promote the removal of sediment and hydrocarbons. Per Town of Vail requirements dl inlets and storm manholes will have a 1.5' sump belowtle outlet pipe to prcmote sedimentation of suspended solids. Additionally, two sand-oil separators (A & B) will be installed for the purpose of removing suspended solids and hydrocarbons. Sand-oil separator A will serve subcatchments 10-85, and was desiped to capture storms up to the 2-year event. Low flow event6 will be diverted into the sand-oil separator throuoh a low flow storm sewer, and larger events will bypass via the proposed storm sewer system. Calculations shown in the appendix detail the sizing of the low flow inlet. sand-oil separator B will serve subcatcbments 90-110 and due to low estimated peak flows, it will be in-line with the storm sewer system and all events will pass through this separator. 6. Erosion and Sedimentation Control A site-specific stormwater ldanagement Plan hes !ss1 prepared for the proposed project. The report addresses temporary and permanent erosion con&ol measures for the project, During constructioq a variety of stabilization measures will be used to prevent mobilization of soil due to wind and water action. The locations of proposed stabilization measures as well as installation details are illustrated on the Erosion Coutrol plan included in the Stormwater Management Plan. 7. Summary The proposed Middle Creek Affordable Housing Development has been designed so that existing drainage patteqrs 166ain largely unchanged. A detailed hydrologic and hydraulic analysis was performed to analpe runoffquantities from the site and size associated hydraulic structures. Ail hydraulic stnrctures were sized to ensure that the 50- I T I T I I I I T I I I I I I I I I I year event could be conveyed through the site without any backup. Additionally, the 1OO-year evenJ will be routed through the site with only minel laskups in the drainage system and will pose no threat of damage to stmctures or property. Several water quality measures will be imFlemented to remove suspended solids and hydrocarbons from the stormwater. Prepared by: fl/M*,,,u Mark B. Tarall, PE Peak Civil Engineering, Inc. -$:y'r*1- $fl !o h....-...-.io$$ailit$ 3- 7.1'03 -I I t I t I I Appendix A l"Iaps and Drainage Plan I I T I I I T I I I ) t I I I I T I t I I I I I I t I T I I {Irtl I PROJECTNAME: MIDDLE CREEK AFFORDABLE HOUSING DATE: 3-2003 SCALE: NTS PROJECTNo.: 1039 TITLE: VICIMTYMAP PEA'I( LAI{D COMIUI-TANTEI INC'__-#%m LFifS DOE LOOP VAI- @ llt57 FIGURENo.: 1 Frc* USCXI VAL ITEIT Ot'AD I'AF. g7 FROIA I.EG8 VAL EAST OUAD UAP. D87 PROJECTNAME:TITLE: O\DRAIL SUBCATCHMENT BOUNDARY FIGURENo.: 2 PEAK LAI{D co|tlsul-TANTq NC. MIDDLE CREEK AFFORDABLE HOUSING DATE: 3-2003SCALE: l"=1000' PROJECTNo.: 1039 FEAK CfIiI- EIiIGi{EENNG. T\8.g7o'g$4/l FAXS7ofG{tIsE ucifS FDe LooP v L,co3t57 I T T t I t I I I I I I I I I I I I t ) sseaa \ 3518 6 ''$' --'o* i '-- iitc 3{fc t' 346c, '<-g*5,1N t I I I t US Foeesr Seelus Sots art MrP I -:,:-:-.;- -,teuiiqllf;'. ,' '--=--_-', @ q @*Fry JJ+I ffi \\/I \ Fsir @*4 -+ffi-+ffi*fo -'-Aff/l @*4--+ffi-+ffi*# $ l9 toI eF uS3.=F Egb Eo0I.E J.= E PT6;Eg.E < tl l-- E E8 =.= $ rf,E FE@Iaogl TEEI $;; I UFEI gl1t @ @ry slr | / ,.,,4NrlJ (ii| [:s.lI r-:-jJ+{ l@ @+ I @ H\ \,.-_-_/l:l[':l wit/i.c'7HA A,1,-; e t Fil \l r-""r:--ll:i.?',:.1 EAil /A)l:ltll=lv r, rg ,a-fi|-tM ,.,,/ "' 1. ,' I i I I l tl I I. t' )*<:r ,t' rc .JI .' i,l ! I :: -'\l -lzlLrlatlvl l-r-ll __JI + Fz Lll I(J c)mla - I F4 51. 3 F; gt-FaE fEa aHE * -/t\ tqptrj g F:5 =E> ) 9x E_sq9Z irll.,tll E 3 d a a I F o, f.) ei- F- s F a i! E l{i z. J o_ LJ (_) z. a E.o r.) o c.l t_) \ c/i !".r\ F t. *s l.tg) l<t l=<lu-) lo*t -. leil"uls =J | !{lx l-qdth't'-T- I =l.:lclslSI SIul z o- aa LdHo ozX<o Y9ao*!oo LJo< -?E9- 9v6Ql:r,r<LJ4TJF _EzL4+oo;* E-,'tr3zQ-. ;>H<==> It!oFo-oJZ.v=!-l o E lJJ o = (/) E6\s !.rt { T6Pq s= RE = = =z = (-) =ulz f z zI IIIIIIIITIIIIIIIIII Appendix B 2-Y ar Event Post-Dcvclopment Drainqge Data ,/ Prepared by Peak civi! [n011991i19,nc. Subcatchment l0: {0 I I t I I T I T I I Runoff = 0.33 cfs @ 11.94 hrs, Volume=0.014 af RunoffbySCSTR-20method'UH=SCS,TimeSpan=0'0S20'00hrs'dt=0'01hrs Type ll 24-hr Rainfall=1'0O' Area (acl CN DescriDtton : : :0.233 98 Paved roads w/curbs & sewers Tc Lenqth Slope Velocity Capacity Description in\ r+o1\ /ft/ft\ {ft/sec) (cfs) 2.2 60 0.0125 Sneet Flor, SHEET FLOW'ROAD n= 0.015 P2= 1 .00" Middle Creek Housing lnfloul = Outflow = Pdmary = Type ll 24hr Rainfall=l.N' - 2 Yr Event Page 1 0.014 af 0.014 al Atten= 0%, Lag= 0.2 min 0.014 af 0.9 70 O.OO50 1.2 O'25 Channel Florv' CURB AND GUTIER Arei= 0'2 sf Perim= 2'7' r= 0'07' n= 0'015 3.1 130 Total Pond l0P: {0P 0.33cfs @ 11.94 hrs, Volume= 0.33cfs @ 1'l'54 hrs, Volume= 0.33 cfs @ ll.g+ hrs, Volume= Routing by Stor-lnd method, Time Span= O'OG2O'00 hrs' df= 0'01 hrs Peak Elev= 8,209.2E Stonge= E c'f bilo:rro* deiention time=0.6 min catcutated for 0.014 af (100% of inflor) bioLs" "nd tetted areas determined by lnegular sections Surf.Area Perim.lnc.Store Cum.Store Wet.fuea Elevation 8.209.17 o E,209.58 200 Primary OutFlow (Free Discharge) t-1=Orifice/Grate t-2=orifice/Grate 0,0 n.0 0 472 0 27 0 27 I I t I I I I I I 1 Primary 8,209.17'2 Device 1 8,209.17' Of Z' x OSS' Horit. Orifice/Grate X 20'00 C= 0'600 2.75'x 0.33'Vert Orifice/Grate C= 0'600 lnflow = Outflow = 0.33 cfs @ 0.33 cfs @ Reach 1'l:11 11.94 hrs, Volume= 11.95 hrs, Volume= 0.014 af 0.014 af, Atten= 2%, Lag= 9.7 t,n Middle Greek Housing Prepared by Peak Civil Engineering, Inc. 2.0 120 0.0680 1.0 1.3 330 0,0550 4.1 Type ll 24hr RainfalFl.00'- 2 Yr Event Page 2 I I I HvdroCAD@ 6.00 s/n 002040 @ 1986-2001 Applied Microcomputer Svstems 3/19/2003 Routing by Stor-lnd method, Time Span= 0.0S20.00 hrs, dts 0.01 hrs Max. Velocity= 2.1 fps, Min. TravelTime= 1.1 min Avg. Velocity = 0.6 fps, Avg. TravelTimE= 3.8 min Peak Depth= 0.21' Capacity at bank full= 7.41 ds lnlet lnvert= 8,205.70', Outlet Invert= 8,204.99' 18.0" Diameter Pipe n= 0.013 Length= 142.5' Slope= 0.0050 ? Subcatchment 20: 20 Runoff = 0.18 cfs @ 11.95 hrs, Volums=0.007 af Runoff by SCS TR-20 method, UH=SCS, Time Span= 0.00-20.00 hrs, dt= 0.01 hrs Type ll 2zl-hr Rainfall=1.00" Area (ac) CN Description 0.25E 98 Paved roads dcurbs & sewers' 0.193 72 Woods/grass comb., Good, HSG C 0.050 74 >75% Grass cover, Good, HSG C 0.501 86 Weighted Average Tc Length Slope Velocity Capacity Description(min) (feet) (fi/ft) (ft/sec) (cfs) I I t I I I t I I t I SheetFlow, ROADWAY n= 0.015 P2= 1.00" 0.82 Channel Flow, CURB Al,lD GUTIER Frea= 0.2sf Perim= 2.7 r=0.07 n= 0.015 3.3 450 Total Inflor =Outflow =Primary = 8,209.29 8,209.69 Pond 20P:20P 0.18 cfs @ 11.95 hrs, Volume= 0.007 af 0.18 cfs @ 11.96 hrs, Volume= 0,007 af, Atten= 17o, Lag= 9.5 t'n 0,1 I cfs @ 1 1.96 hrs, Volume= 0,007 af Routing by Stor-lnd method, Time Span= 0.0S20.00 hrs, d1= 0.01 hrs Peak Elev= 8,209.36' Storage= 7 cf Plug-Flow detention time= 1 .5 min calculated for 0.007 af (100% of inflow) Storage and wetted areas determined by lnegular sections Elevation Surf.Area Perim.Inc.Store Cum.Store WetArea(feet) (sq-ft) (feet) (cubic-feet) (cubic-feet) (sq-ft) I I I I 0 0.0290 68.0 39 39 frimary OutFlow (Free Discharge) E-1=Orifice/Grate t-2=orifice/Grate I 0 neering, lnc. I I I I I I I t I I I t Middle Creek Housing Type ll 24-hr Rainfall=l.00'- 2 Yr Event Prepared by Peak Civil HvdroCAD@ 6.00 s/n 002( # Routing lnverl Outlet Devices t primary 8,209,29' 0.12'x 0.55' Horlz. Orifice/Grate X 20.00 C= 0'600 2 Device 1 8,209.29' 2.75' x 0.33'Vert Orifice/Grate C= 0.600 Reach 21=21 lnflow = 0.51 cfs @ 11.95 hrs, Volume= 0.022 af Oumow = 0.48 cts @ t t .gZ hrs, Volume= 0.022 af, Atten= 5%, Lag= 1.2 t'n Routing by Stor-lnd method, Time Span= 0.0S20.00 hrs, dt= 0.01 hrs Max. Velocity= 2.4fps, Min. Travel Time= 1.9 min Avg. Velocity = 0.7 fps, Avg. TravelTime= 6.4 min Peak Depth= 0.26' Capacity at bank full= 7.42 ds lnlet lnvert= 8,204.89', Outlet Invert= 8,203.55' 18.0" Diameter Pipe n= 0.013 Length= 268.5' Slope= 0.0050 7 Subcatchment 30: 30 Runoff = 0.63 ds@ 12.M hrs, Volume=0.033 af Runoff by SCS TR-20 method, UH=SCS, Time Span= 0.0C20.00 hrs, dt= 0.01 hrs Type ll 24-hr Rainfall=1.00" Area (ac) CN DescriPtion 0.083 98 Paved Parking & roofs 0.678 98 Paved roads dcurbs & sewers 0.214 74 >75olo Grass cover, Good' HSG C 0.975 93 Weighted Average Tc Length Slope Velocity Capacity Description (min) (feet) (ffi) (ft/sec) (cfs) 6.7 40 0.2500 0.1 SheetFloq LANDSCAPE Woods: Light underbrush n= 0.400 P2= 1'00" 2.5 2.8 120 0.0375 0.8 210 0.0050 1.2 Sheet Flow, ASPHALT n= 0.015 P2= 1 .00" 0.25 ChaNNEI FIOW, CURB AI'ID GUTTER T I I I I I I 12.0 370 Total Pond 30P:30P Inflow = 0.63 cfs @ 12.04 hrs, Volume= Outflow = 0.63 cfs @ 12.05 hrs, Volume= Primary = 0.63 cfs @ 12.05 hrs' Volume= 0.033 af 0.033 af, Atten= 0%, Lag= 9.3 t'n 0.033 af Routing by Stor-lnd method, Time Span= 0.00'20.00 hrs, dt= 0'01 hrs Middle Crcek Houslng Type Il 24hr Rainfall=l.00" - 2 Yr Event Prepared by Peak Civil Engineering, Inc. Page 4 HvdroCAD@ 6.00 s/n 002040 @ 1986-2001 Applied Microcomputer Svstems 3|/1 9/2003 Peak Elev= 8,208.16' Storage= 17 cf PlugFlow detention time= 0.9 min calculated for 0.033 af (100% of inflow) Storage and wetted areas determined by lnegular sec{ions Elevation Surf.Area Perim.lnc.Store Cum.Store WetArea(fee0 (sq-ft) ffeet) (cubic-fee0 (cubic-feet) (sq-fi) I I I I I8,207.99 8,20E.50 lnflow = Outflotrtl = 0 0.0300 65.0 0051 337 0 51 frimary OutFlow (Free Discharge)L1=orificdcrate t-2=orifice/Grate # Ror.rtinq lnvert Outlet Devices 1 Primary E,207.99' 0.1?x0.55 HorizOriflce/GrateX20.00 C=0.6002 DeMce 1 8.207.99' 2.75'x 0.33'Vert Orlflce/Gnte C= 0.600 I I T T I I I I I t t t I I Reach 3l: 31 1.01cfs @ 12.00 hrs, Volume= 0.055af 1.01 cft @ 12.01 hrs, Volume= 0.055 af, Atten= 0%, Lag= 9.3 *'n Routing by Stor-lnd method, Time Span= 0.0020.00 hrs, dts 0.01 hrs Max. Velocity= 2.9 fps, Min. Travel Time= 0.4 min Avg. Velocity = 0.9 fps, Avg. TnvelTime= 1'3 min Peak Depth= 0.37 Capacity at bank full= 7.44 ds Inlet Invert= 8,203.45', Otfilet lnvert= 8,203.1O 1E.O'Diameter Pipe n= 0.013 Length= $$./ $16p6= 0.0050 7 Subcatchment 40: 4{l Runoff = 0.06 cfs @ 12.16 hrs, Volume=0.006 af Runoff by SCS TR-20 method, UH=SCS, Time Span= 0'0G'20.00 hrs, dt= 0.01 hrs Type ll 24-hr Rainfall=1.00" Area (ac) GN DescriPtion 0.272 98 Paved Parking & rooft 0.506 74 >75% Grass cover. Good. HSG C 0.778 82 Weighted Average Middle Creek Housing Type tl 24hr Rainfall=7.00' - 2 Yr Event Page 5 Prepared by Peak Civil Engineering, Inc. HvrtincAr|A A nO s/n 002040 @ 198G2001 Ap Tc Length SloPe VelocitY Capaci$ DescriPtion t I I I t I I I 0.2 36 O'O1OO 3'1 6.24 ChannelFlow, GRASS-DITCH Area= 2'0 sf Perim= 4'0' r= 0'50' n= 0'030 17.7 26 Total 17.4 ',125 0.0320 0.1 0.1 85 0.4710 10.3 Sheet Flow, I-ANDSCAPE Grass: Short n= 0.150 P2= 1.00" Shallow Goncentrated Flow LANDSCAPE Grassed WatenrarT Kv= 15.0 fus Pond 40P:40P tnffow = 0.06 cfs @ 12.16 hrs, Volume= Outflow = 0.06 cfs @ 12.16 hrs, Volume= Primary = 0.06 cfs @ 12.16 hrs, Volume= Routing by Stor-lnd method, Time Span= 0.0G20.00 hrs, dt= 0'01 hrs Peak Elev= 8,206.80' Storage= 0 cf ir[*f-f"* Oit*tion time= 0.6 min calculated for 0.006 af (100% of inflow) Sto-rage and wetted areas determined by Inegular sec'tions Elevation SurfArea Perim. Inc'Store Cum'Store WetArea-'-ii;;ii - i;+fti (feti (cubic'reeo (cubic'feeD (sq-ft) 8,206.8000.00006:tog:oo sss 250.0 222 222 4'e76 frimary OutFlow (Free Discharge) t-1=orifice/Grate # Routinq Invert Outlet DeviggF . - - @,.12' Horizorifice/Grate x 2.00 c= 0'600 Reach 412 41 lnflow = 0.06 cfs @ 12.16 hrs, Volurne= Outflo,rr = 0'06 cfs @ 12.16 hrs, Volume= Routing by Stor-lnd method, Time Span= 0.0&20.00 hrs, dt= 0'01 hrs Max. Vito-city= 1.6 fps, Min. TravelTime= 0'5 min Avg. Velocity = 0.9 fps, Avg. TravelTime= 0'9 min Peak DePth= 0.08 Caoacity at bank full= 10.57 cfs lndt lnv-ert= 8,203.80', Outlet lnvert= 8,203'33' i6O'; Oiameter Pipe n= 0.013 Length= 46.4' Slope= 0.0101 '/ 0.006 af 0.006 af, Atten= 0%, Lag= 9.1 *'n 0.006 af I I I I I I I t t I I 0.006 af 0.006 af, Atten= 0ol0, Lag= 0.3 min Middle Creek Housing Type ll 24hr Rainfall=l.00'- 2 Yr Event Prepared by Peak Civil Engineering, Inc. Page 6 HvdroCAD@ 6.00 s/n 002040 @ 1986-2001 Applied Microcomputer Svstems 3/19/2003 Subcatchment 50: 50 Runoff = 0.03 cE @ 15.47 hrs, Volume= 0.014 af Runoff by SCS TR-20 method, UH=SCS, Time Span= 0.0G20.00 hrs, dt= 0.01 hrs Type ll 24hr Rainfall=l.0O' Area (ac) CN Description 0.280 74 >75%Grasscover, Good, HSGC 14.516 73 Woods. Fair, HSG C 14.796 73 Weighted Average Tc Length Slope Veloci$ Capacity Description(min) (fee0 (ft/ft) (fi/sec) (cfs) 18.3 125 0,2000 0.1 SheetFloqWOODS Woods: Light underbrush n= 0.400 P2= 1.00"3.9 2,085 0.3000 8.8 Shallow Goncentrated Flow WOODS Unpaved Kv= 16.1fps0.3 275 0.1090 16,0 256.34 Channel Floq GRASS DITCH Area= 16.0 sf Perim= 16.5' p 0.97 n= 0.030 22.5 2,485 Total t I t I t t I t I I T I I I I I I I I lnflow = Otttflortt =Primary = 0.90cfs @ 11.% hrs, Volume= 0.89 cfs @ 11.95 hrs, Volume= 0.89 cfs @ 11.95 hrs, Volume= Pond 50P:50P 0 671 0.053 af 0.053 af, Atten= 2%, [ag= 0.7 min 0.053 af 00671 737 Routing by Stor-lnd method, Time Span= 0.0S20.00 hrs, dl= 0.01 hrs Peak Efev= 8,28.92' Storage= 80 cf PlugFlow detention time= 5.4 min calculated for 0.053 af (99% of inflow) Storage and wetted areas determined by Inegular sections Elevation Surf.Area Perim.lnc.Store Cum.Store Wet.Area(feet) (sq-ft) (feet) (cubic-feet) (cubic-feet) (s+ft) 8,248.50 0 0.08,252.00 575 95.0 frimary OutFlow (Free Discharge) E-1=Culvert # Routinq Invert Outlet Devices 1 Primary E,248.5O 18.0" x 102.4 long Culvert RCP, end-section conforming to fill, Ke= 0.500 Outlet InverF 8,243,50' S= 0.0488 7 n= 0.013 Cc= 0,900 Middle Creek Housing Type tl 24-hr Rainfall=1.00''2 Yr Event Page 7 I I I I I I I I I I I I t I I I I I I Prepared by Peak Civil Engineering, Inc. HvdiocAD@6.00 sin 002040 @ 1986-2001tu Reach 51:51 lnflow = 0.89 efs @ 11'95 hrs' Volume= 0'053 af Outftow = o.EB cf;6 ii:95 ftoi Votute= 0'052 af, Aften= 07o, Lag= 0'2 min Routino bv Stor-lnd method, Time Span= 0.0S20'00 hrs, dt= 0'01 hrs Max. V:l&ity= 6.4 fps, Min. Travel Time= 0'3 min Avg' velodd = 2,1 fps, Avg. TravelTime= 0'8 min Peak DePth= 0.20' Caoacitv at bank full= 23.49 cfs lnl6t Invlrt= 8,248.50', Outlet Invert= 8,243'50' i;.d'; D]ild"ipip" h= 0.013 Length= 100.0' Slope= 0'0500'/ Reach 51.5: 51.5 lnflow = 0.88 cfs @ 1 1.95 hrs, Volume= Outflow = 0,88 cfs @ 1 1.95 hrs, Volume= Routinq bv Stor-lnd method, Time Span= 0'0e20'00 hrs, dt= 0'01 hrs Max. V;l;ity= 13.1 fps, Min. TravelTime= 0'1 min Avg. Velocid = 4.6 fPs, Avg. TravelTime= 0'4 min Peak DePth= 0.12' Caoacitv at bank full= 65.65 cfs fnl6t tnvlrt= 8,243.OO, Outlet Invert= 8,203.29 iti.ri; oiimetdr Pipe n= 0.013 Length= 101.9 Slope= 0'3906'/ Reach 52'-52 0.052 af 0.052 af, Atten= 0%, Lag= 9.1 t'n 0.059 af 0.059 al Atten= 0%,Lag= 0.0 minlnflow = 0.89 cfs @ ',|1.96 hrs, Volume= Outflow = 0.89 cfs @ 11.96 hrs, Volume= Routino bv Stor-lnd method, Time Span= O.0G2O'00 hrs, dt= 0'01 hrs Max. Gtocitv= 5.7 fps, Min. TravelTime= 0'0 min Avg. Velocid = 2'0 fps, Avg' Travel Time= 0'1 min Peak Depth= 0.22' CapaciVat bank full= 19.91 cfs lndt Invbrt= 8,202.90', Outlet Invert= 8'202.53' tg.O" Oiameter Pipe n= 0.013 Length= 10'3 Slope= 0'0359'/ Subcatchment 55: 55 Runoff = 0.90 cfs @ 11.% hrs, Volume=0.039 af RunoffbyScSTR-2omethod,UH=SGS,TimeSpan=0.00.20.00hrs,dt=0.01hrs Type ll 24-hr Rainfall=1'00" Middle Creek Housing Type ll Z$hr Rainfall=l.00' - 2 Yr Event Prepared by Peak Civil Engineering, Inc. Page I HvdroCAD@ 6.00 s/n 002040 @ 198&2001 Applied Microcomputer Svstems 3/19/2003 Area (ac) CN Description 0.633 98 Paved parking & roofs Tc Length Slope Velocity Capacity Description(min) (feet) (ftlft) (fUsec) (cfs) 3.3 150 0.0300 0.E Sheet Flow n= 0.015 P2= 1.0O' I t I I I I I I T I I I I ,l I I I lnflow =Outflow = Reach 56: 56 0.90cfs @ 11.g4hrs, Volume= 0.039af 0.90 efs @ 11.94 hrs, Volume= 0.039 af, Atten= 0%, Lag= 9,9 ttn Routing by Stor-lnd method, Time Span= 0.0S20.00 hrs, dt= 0.01 hrs Subcatchment 60: 60 Runoff = 0.15 cfs @ 11.93 hrs, Volume= 0.007 af Runoff by SCS TR-20 method, UH=SCS, Time Span= 0.0S20.00 hrs, d1= 0.01 hrs Type ll 2zt-hr Rainfall=1.00" Area (ac) CN Description 0.105 9E Paved roads dcurbs & sewers Tc Length Slope Velocity Capacity Description(min) ffee0 ft/ft) (fUsec) (cC) 2.2 ffi 0.0150 0.5 Sheet Flonr, ROADWAY r= 0.015 P2= 1.00'0.6 43 0.0050 1.2 0.25 GhannelFloqCURBAl,lDGUTTER Pond 60P:60P lnflow = 0.15 cfs @ 11.93 hrs, Volume= 0.007 af Outflow = 0.15 cfs @ 11.94 hrs, Volume= 0.007 af, Atten= 1%, Lag= 0.4 min Primary = 0.15 cfs @ 11.94 hrs, Volume- 0.007 af Routing by Stor-lnd method, Time Span= 0.0$20.00 hrs, dt= 0.01 hrs Peak Elev= 8,207.84' Storage= 6 cf Plug-Flow detention time= 1 .5 min calculated for 0.007 af (100% of inflow) Storage and wetted areas determined by Inegular sec'tions Elevation Surf.Area Perim.Inc.Store Cum.Store Wet.Area(feet) (sq-ft) (feet) (cubic-feet) (cubic-feet) (sq-ft) 8,207.77 8,207.97 0 0.0250 73.0 0017 424 0 17 rl I Middle Greek Housing Type II 24hr Rainfall=l.00''2 Yr Event Page 9 I I I I I I frimary OutFlow (Free Discharge) 1-1=Orifice/Grate t-2=orifice/Grate Prepared by Peak Civil Engineerilg,ln.. 1 Primary2 Device 1 8,207.77' 8,207.77' 0.12' x 0.55' Horiz Orifice/Grate X 20.00 C= 0.600 2,75'x 0.33'Vert Orifice/Grate C= 0'600 lnflow = Outflow = Reach 6l: 6{ 1.11cfs@ 11.99hrs, Volume= 0.051 af i:i0 A 6 lz.oohrs, Volume= 0'061 af, Atten= 1%, Lag= 9'6 t'n I I I I I I I Routinq bv Stor-lnd method, Time Span= 0'0S20.00 hrs, dt= 0'01 hrs Ma(. V;l&ity= 3.4 fps, Min, TravelTime= 0'8 min Avg, Velocity = 1.0 fps, Avg. Travel Time= 2'8 min Peak Depth= 0.36 Caoacitv at bank full= 8.79 cfs lndt lnvlrt= 8,203.00', Outlet Invert= 8,201.82' ia.O'; Oi"m"ter Pipe n= 0.013 Lengrth= 168'7 Slope= 0'0070 7 Subcatchment 70: 70 Runoff = O.17 cG @ 11.96 hrs, Volume=0.007 af Runoff by SCS TR-20 method, UH=SCS, Time Span= 0.0G'20'00 hrs, dt= 0.01 hrs Type ll 2&hr Rainfall=1'00" Area (ac) CN DescriPtion 0.196 98 Parred roads dcurbs & sewers 0.066 98 Paved Parking & roofs 0.572 85 Weighted Average 0.5 1.9 Tc !D 2.4 't.2 Length SloPe Capacity DescriPtion 73 0.0150 140 0.0120 Sheet Flow, ROADWAY n= 0.015 P2= 1.00' 0.38 Ghannel Flow, GURBAT'ID GUTTER I I I I I I 3.6 213 Total 11.96 hrs, Volume= 11.96 hrs, Volume= 11.96 hrs, Volume= 2.7' r= 0.07' 0.007 af 0.007 af, Atten= 0ol0, Lag= 9.2 t'n 0.007 af Pond 70P: 70P lnflow = Outflow = Primary = 0.17 cfs @ 0.17 cfs @ 0.17 cfs @ Middle Creek Housing Type ll 24hr Rainfall=l.@' - 2 Yr Event Prepared by Peak Civil Engineering, Inc. page 10 HvdroCAD@ 6.00 s/n 002040 @ 1986-2001 Applied Microcomputer Svstems 3/19p003 Routing by Stor-lnd method, Time Span= 0.0G20.00 hrs, df= 0.01 hrs Peak Elev= 8,206.60' Storage= 4 cf Plug-Flow detention time= 0.8 min calculated for 0.007 al (100o/o of inflow) Storage and wetted areas determined by lrregular sections Elevaiion SurfArea Perim.Inc.Store Cum.Store Wet.Area{feet) (sq-ft) (feet) (cubic-feet) (cubic-feet) (sq,fl) 0 10 0 10 I I I t I I I I I I t t I I I I I I I 8,206.53 8,206.73 lnflow = Or.rtfloul = 0 0.0145 55.0 0 241 Primary OutFlow (Free Discharge) L1=Orifice/Grate t-2=orifice/Grate # Routino Invert Outlet Devices 1 Primary 8,206.53' 0.12'x 0.55' Horiz. Orifice/Grate X 20.00 C= 0.6002 Device 1 8,206.53' 2.75'x 0.33 Vert Orifice/Grate C= 0.600 Reach 71:71 2.07 ds@ 11.97 hrs, Volume= 0.127 af 2.06 cfs @ 11.98 hrs, Volume= 0.127 at, Affen= 0%, tag= 0.2 min Routing by Stor-lnd method, Time Span= 0.00-20.00 hr€, dl= 0.01 hrs Max. Velocity= 4.6 fps, Min. Travel Time= 0.3 min Avg. Velocity = 1.5 fps, Avg. Travel Time= 0.9 min Peak Depth= 0.45' Capacity at bank full= 10.53 cfs fnlet lnvert= 8,201.72', Outlet lnvertr 8,200.89 18.0" Diameter Pipe n= 0.013 Length= 82.6' Slope= 0.0100'/ Subcatchment 80: 80 Runoff = 0.00 ds@ .,15.24 hrs, Volume= 0.002 af Runoff by SCS TR-20 method, UH=SCS, Time Span= 0.0G20.00 hrs, dt= 0.01 hrs Type ll 24-hr Rainfall=1.0O' Area (ac) CN Description 1.1U 73 Woods, Fair, HSG C0.535 74 >75% Grass cover, Good. HSG C 1.639 73 WeightedAverage I I I t I I I I I Tc Length Slope Velocity Capacity Description (min) (fee0 (ffi) (fl/sec) (cfs) 73 50 O.SSOO 0.1 SheetFlow,WOODS. Woods: Light underbrush n= 0.400 P2= 1'00" 2.1 430 O.4BSO 3.5 ShallowCbncentrated Floq WOODS/LANDSCAPE Middle Greek Housing lnflow = Outflou, =Primary = Type ll 2*hr Rainfall=l.00. - 2 Yr Event Page 11 0.018 af 0.018 al Atten= 1%, Lag= 0.5 min 0.018 af Pond 80P:80P 0.42ds @ 11.95hrs, Volume= 0.41 efs@ 11.96hrs, Volume= 0.41 sfs @ 11.96hrs, Volume= Routing by Stor-lnd method, Time Span= 0.0G20.00 hrs, dt= 0.01 hrs Peak Elev= E,205.51' Storage= 17 cf PlugFlow detention time= 1 .6 min calculated for 0.018 af (1007o of inflow) Storage and wetted areas determined by lnegular sections Elevation Surf.Area Perim.lnc.Store Cum.Store WetArea Prepared by Peak Civil Engineering, Inc. 9.1 480 Total E,205.38 8,205.91 lnflow = Outflow = 0 0.0400 75.0 prlmary OutFlow (Free Discharge) t-1=orifice/Gftile t-2=orifice/Grate # Routinq lnvert Outlet Devices t primary- 8,205.38' 0.12'x0.55'HorizOdficdcratEX20.00 C=0'600 2 Devics 1 8,205.38' 2.75' x 0.33' Vert Orifice/Grate C= 0.6il) Reach 8l: 81 Inflorr = 0.00 6s@ 15.24 hrs, Volume= 0.002af Outnot, = 0.00 As@ $.ZChrs, Volume= 0.002af, Atten=0%, Lag=0.0min Routing by Stor-lnd method, Time Span= 0.0S20'00 hrs, dt= 0'01 hrs Reach 82282 2.46cfs @ 11.97 hrs, Volume= 0.145af 2.46 cfs @ tt.gl hrs, Volume= 0.145 al' Atten= 0%' Lag= g.g t'n 0 7',| 0 4E 0 71I I I I I I I I I I Routing by Stor-lnd method, Time Span= 0.0G20.00 hrs' dt= 0.01 hrs Max. Velocity= 6.2 fps, Min. Travel Time= 0.0 min Avg. Velocity = 2.0 fps, Avg' TravelTime= 0'1 min Middle Grcek Housing Prepared by Peak Civil Engineering, lnc. Peak Depth= 0.41' Capacity at bank full= 14.86 cfs Inlet lnvert= 8,200.79', Outlet lnvert= 8,200.51' 1E.0" Diameter Pipe n= 0.013 Length= 14.0' Slope= 0,0200 T Reach 83:83 lnflow = 2.46 cft @ 11.97 hrs, Volume= 0.145 afOutflow = 2.43 cfs @ 11.98 hrs, Volume= 0j4 af, Atten= 1%, Lag= 0.7 min Routing by Stor-lnd method, Time Span= 0.0().20.00 hrs, d[= 0.01 hrs Max. Velocity= 6.6 fps, Min. Travel Time= 1.0 min Avg. Velocity = 2.1 fps, Avg. Travel Time= 3.1 min Peak Depth= 0.39' Capacity at bank full= 16.17 cG Inlet Invert= E,199.40', Outlet Invert= 8,190.10' 18.0" Diameter Pipe n= 0.013 Length=392.7' Slope= 0.0ZgZ,l Subcatchment 85: 85 Runoff = 0.42 cfs @ 11.95 hrs, Volume= 0.016 af Runoff by SCS TR-20 rneffiod, UH=SCS, lime Span= 0.00-20.00 hrs, dt= 0.01 hrs Type ll 24-hr Rainfall=l.00" 0.47 98 Paved parking & roofis Type ll 24hr Rainfalbl.@'- 2 Yr Event Page12 t I I I I I I t t I I I I .217 74 0.6e1 90 Weighted Average 0.6 4.2 tc !D 2.4 1.0 Length Slope 92 0.0250 245 0.0570 Capacity Description SheetFloq PARKTNG n= 0.015 P2= 1.00" 0.83 Channel Flow' GURB AttD GUTTER 3.4 337 Total Subcatchment 90: 90 Runoff = 0.00 cfs @ 12.E3 hrs, Volume= 0.001 af Runofr by SCS TR-20 method, UH=SCS, Time Span= 0.00-20.00 hrs, dt= 0.01 hrs Type ll 24-hr Rainfall=1.00" I il t T I t I I I I I I I I Middle Creek Housing Type ll 24hr Rainfall=l.00" - 2 Yr Event Page 13 Area (ac) CN DescriPtion 0.337 70 Woods, Good, HSG C 0.276 74 >75% Grass cover, Good, HSG C 0.078 98 Paved parkinq & roofs 0.691 75 Weighted Average Tc Length Slope Velocity Capacity Description (min) (feet) (fUft) (ft/sec) (cfs) 0.6 100 0.4390 2.6 0.9 190 0.5360 3.7 0.1 190 0.1895 31.8 Sheet Flow WOODS Smooth surfaces n= 0.011 P2= 1.00" shallow concentrated Flow WooDS Woodland Kv= 5.0 fps 1,016.37 ChannelFloW GRASS DITCH Prepared by Peak Civil Engineering, lnc. 1.6 4E0 Total Pond 90P:90P lnflow = Outflorv = Prirnary = 0.00cfs @ 12.83 hrs, Volume= 0.00 sfs @ 13.35 hrs, Volume= 0.00 cfs @ 13.35 hrs, Volume= 0.001 af 0,001 af, Atten= 4%, Lag= 30.8 min 0.001 af Ror.rting by Stor-lnd method, Time Span= 0.0G20.00 hrs, dF 0.01 hrs Peak Efev= 8,245.02' Storage= 2 cf Pf ugFlow detention time= 16.0 min calculated for 0.001 af (97% of inflow) Stoiage and wetted areas determined by Inegular sections Elevation Surf.Area Perim.lnc.StorE Cum.Store Wet.Area 0 52E 0 537 0 537 0 460 I I I t I I I I I I I 8,245.00 8.248.50 0.0 80.0 flTryr,gfflow (Free Discharge) # Routinq lnvert Outlet Devices t prirnary 8,245.00' 12.t' x106.5'long Culvert RCP, end-sectionconforming to fill, Ke= 0.500 Outlet lnvert= 8,239.50' S= 0.0516 T n= 0.013 Cc= 0.900 Reach 91: 9l Inflow - 0.00 cfs @ 13.35 hrs, Volume= 0.001 af Outflow = 0.00 sfs @ 13.36 hrs, Volume= 0.001 al Atten= 0%, Lag= 1.0 min Routing by Stor-lnd method, Time Span= 0.0S20.00 hrs, dt= 0.01 hrs Max. Velocity= 1.2 fps, Min. Travel Time= 1,5 min Avg. Velocity = 1.1 fps, Avg. Travel Time= 1.6 min Middle Grcek Housing Type ll 24-hr Rainfall=l.00* - 2 Yr Event Prepared by Peak Civil Engineering, Inc. Page 14 HvdroCAD@ 6.00.s/n 002040 @ 1986-2001 Applied Microcomputer Svstems 3/192003 Peak Depth= 0.01' Capacity at bank full= 8.10 cfs lnlet Invert= 8,245.00', Outlet Invert= 8,239.50' 12.0" Diameter Pipe n= 0.013 Len$h= 106.5' Slope= 0.0516 7 Subcatchment 100: 100 Runoff = 0.37 cfs @ 11.93 hrs, Volume=0.014 af Runoff by SCS TR-20 method, UH=SCS, Time Span= 0.0S20.00 hrs, dt= 0.01 hrs Type ll 24-hr Rainfall=1.00' Area (ac) CN Description 0.044 74 >75% Grass cover, Good, HSG C 0.289 98 Paved parking & roofs 0.333 95 Weighted Average Tc Length Slope Velocity Capacity Description(min) (feet) (fl/ft) (fi/sec) (cft) 2.3 109 0.0367 o.4 90 0.w0 0.E 3.7 SheetFlow, PARKING n= 0.015 P2= 1.00" 0.73 Ghannel Flor, GURB AND GUTTER NesE0.2sf Perim=2.7' r= 0.07 n=0.015 2.7 199 Total Pond 100P: 100P lnffow = 0.37 cfs @ 11.93 hrs, Volume= 0.014 af Outflow = 0.37 cfs @ 11.93 hrs, Volume= 0.014 af, Atten= 0%, Lag= 6.9 r'n Primary = 0.37 cfs @ 1'1.93 hrs, Volume= 0.014 af Routing by Stor-lnd method, Time Span= 0.0&20.00 hrs, dt= 0.01 hrs Peak Elev= 8,242.70' Storage= 0 cf Plug-Flow detention time= 0.0 min calculated for 0,014 af (100% of inflow) Storage and wetted areas determined by lnegular sections Elevation Surf.Area Perim.Inc.Store Cum.Store WEtArea(feet) (sq-ft) (feet) (cubiefeet) (cubiofee0 (sq-ft) 0 10 0 10 0 199 I I t I T I t I I T I I I I I I I I I 8,242.70 8,243.00 0 0.0100 50.0 frlmary OutFlow (Free Discharge) fr1=Orifice/GrateL2=Orificer/Grate # Routinq Invert Outlet Devices 1 Primary 8,242.70' 0.12'x0.55'Horlz,Orifice/GrateX20.00 C=0.6002 Primary 8,242.70' 2.75'x 0.33'Vert OrificdGrate C= 0.600 Middle Greek Housing Type ll 2$hr Rainfall=I.00'- 2YrEvent Page 15 I I I I I t I I I Prepared by Peak Civil Engineering, Inc. Reach lOf: 101 Inflow = 0.37 cfs @ 11.93 hrs, Volume= Outflow = 0.37 cfs @ 11.94 hrs, Volume= 0.016 af 0.016 al Atten= 1%, Lag= 9.5 t'n Routing by Stor-lnd method, Time Span= 0.0()''20.00 hrs, dt= 0.01 hrs Max. Velocity= 5.3 fps, Min. Travel Time= 0.8 min Avg. Velocity = 1.7 fPs, Avg. Travel Time= 2.5 min Peak DeFth= 0.14' Capacity at bank full= 8.21 c'fs lnlet lnvert= 8,239.00', Outlet Invert= 8,225.59 12.0" Diameter Pipe n= 0.013 Length=2?4.4' Slope= 0.0531 '/ Subcatchment 110: 110 Runoff = 0.42 cfs @ 11.93 hrs, Volume=0.017 af Runoff by SCS TR-20 method, UH=SCS, Time Span= 0.0G20.00 hrs, dt= 0.01 hrs Type ll 2&hr Rainfall=1.00' Area (ac) CN Description 0.015 74 >75% Grass corer, Good, HSG C 0.296 98 Paved parkinE & roofs 0.311 97 Weighted Average Tc Length Slope Velocity Description 1.8 95 0.0520 0.9 Sheet Flow, PARI{NG n= 0.015 P2= 1.00"0.9 220 0.0500 3.9 0.78 Channel Flou CURBAND GUTTER Area= 0.2 sf Perim= 2.7' r 0.07' n= 0.015 2.7 315 Total Pond 110P: 110P I I I I t I I I I I fnflow = 0.42cfs@ 11.93hrs, Volume= Outfforrrl = 0.42cfs@ 11.93hrs, Volume= Primary = 0.42 cfs @ 11.93 hrs, Volume= 0.017 af 0.017 al, Atten= 0%, Lag= g.'1 ttn 0.017 al Routing by Stor-lnd method, Tlme Span= 0.00-20,00 hrs, d1= 0.01 hrs Peak Elev= 8,229.63' Storage= 4 cf Plug-Flow detention time= 0.4 min calculated for 0,017 at (100o/o of inflow) Storage and wetted areas determined by lrregular sections Elevation Surf.Area Perim.lnc.Store Cum.Store Wet.Area(feetl (sq-ft) (feet'l (cubic-feet) (cubic-feet) (sq-ft) 8,229.50 8i229.80 0 0.0100 50.0 0 10 0 10 n 199 Middle Creek Housing Prepared by Peak Civil Engineerjng, lnc. Type ll 24hr Rainfall=l.@'- 2 YrEvent Page 16 I I I I I I I I I T t I I I I HvdroCAD@ 6.00 s/n 002040 @ 1986-2001 Applied Microcomputer Svstems 3/192003 frimary OutFlow (Free Discharge) t-1=Orifice/Grate L2=Orifice/Grate # Routino Invert Outlet Devices 1 Primary 8,229.50' 0.12'x 0.55' Horlz OdficdGrab X 20.00 C= 0.6002 Device 1 8,229.50' 2.75'x 0.33'Vert OrificefGrate C= 0.600 Reach 1112111 Inflow = 0.79 cfs @ 11.94 hrs, Volume= 0,033 af Outflow = 0.7E cfs @ 11.94 hrs, Volume= 0.033 af, Atten= 0016, Lag= 0.1 min Routing by Stor-lnd method, Time Span= 0.0()'20.00 hrs, dt= 0,01 hrs Max. Velocity= 8.4 fps, Min. Travel l]me= 0.2 min Avg. Velocity = 2.5 fps, Avg. TravelTime= 0.5 min Peak Depth= 0.18' Capacity at bank full= 1 1.50 cfs fnfet fnvert= 8,224.39, Outlet lnvert= 8,216.00' 12.0" Diameter Pipe n= 0.013 Length= $Q.Qr $lep6,= 0.1041 '/ t I T I Middle Greek Housing Prepared by Peak Civil Engineering, Inc' Type ll ZShr Rainfall=l.00''2 Yr Event Page17 Reach 11:11 Hydrograph Plot .9It E lt I I I I I I I I I I I I I I I I I I I Hydrugraph Plot Middle Creek Housing Type ll 24hr Rainfall=l.00'- 2 Yr Event Prepared by Peak Civil Engineering, Inc. page 18 HvdroCAD@ 6.00 s/n 002040 @ 1986-2001 Applied Microcomputer Svstems 3/1gp0o3 Reach 31: 31 Hydrograph Plot 12 13 ,t4 ,t5 16 17 1E .lg 20 Reach 412 41 Hydrograph Plot 0.01 0.01 8 910 11 12 13 14 15 16 17 18 1920 I I I I I I I I I I I I I I I I t I I 7 E 910 11 Tlme (houE) ,p() : tI. ao I G' tl- Time (hours) eo iolt I I I t I I I I I I I t I t I I I I t Middte Greek Housing Type ll 24hr Rainfall--l.@'- 2 Yr Event Fiepareo by Peak CivilEngineerilg, !n9' .. . ... Pase 19 ilvJioCAcro 6.oo iin oozo+o 6- ige6-260t apprleo [aicrocomputer svstems g/1gl2OOg Reach 51: 51 Hydrograph Plot Tlme (hours) Reach 51.5:5{.5 Hydrograph Plot Middfe Creek Housing Type ll 24hr Rainfallr1.||' ' 2 Yr Event Prepared by Peak Civil Engineering, Inc. - Page 20 HvdioCAD@ 6.00 s/n 002040 @ 1986-2001 Applied Microcomputer Svstems 3/19/2003 I I I I I I I I I il t il I I I I I I I 0.7 0. 0.6 0.o I II .8I Io iT Reach 52:52 Hydrognph Plot 8910 11 ',|2 13 14 15 16 17 18 1920 Tlme (hour) Reach 56: 56 8 910 11 12 13 14 15 16 17 1E1920 Time (hours) Hydrograph Plot Middle Greek Housing Type ll 24hr Rainfall=l.00' '2 Yr Event Page 21Prepared by Peak Civil EngineerilO, !n9. HvdroCAD@6.00 s/n 002040 @ 1986-2001 Ap Reach 61: 61 Hydrograph Plot t- tnrtow il- Ouilowl Reach 71:71 Hydrograph Plot Middle Creek Housing Prepared by Peak Civil Engineering, lnc. Type Il 24hr Rainfall=l.O0'- 2 Yr Event Page22 I I I HydroCAD@ 6.00 s/n 002040 @ '1986-2001 Applied Microcomputer Svstems 3/192003 Reach 81: 81 Hydrograph Plot 12345 2E910 11 12 13 14 15 16'.t7 18 1920 Tlme (houc) Reach 82282 Hydrograph Plot s 6 7I9'10 11 Tlme (hours) a(, I l|. 0.002 0.001 0.001 0.001 0.001 0.001 6 I 'o lI- 12 13 14 15 16 17 18 19 Middle Creek Housing Type ll 24hr Rainfall=l.00'- 2 Yr Event Prepared by Peak Civil .9 IJ E Reach 83:83 Hydrognph Plot i6sto11 12 13 11 15 16 17 llme (houn) Reach 9l: 91 Hydrognph Plot 0.001 0.001 0.001 0.001 0.001 o |, o tt Middle Creek Housing Type ll 24hr Rainfall=1.00''2 Yr Event Prepared by Peak Civif Engineering, Inc. _ Page24 HvdiocAo@ 6.00 s/n OO2O+O @ 1986-2001 Applied Microcomputer Svstems 3/19/2003 Reach 101: 101 Hydrograph Plot 7 E 9 10 11 12 Time (houF) Reach 111:111 Hydrograph Plot I I T g BoiI \ Appendix C ) I I t I t I I I I I I I I I I t I I I Middle Grcek Housing Type ll 24-hr Rainfaltsl.40" - 5 Yr Event Prepared by Peak Civil Engineering, Inc. Page 1 HvdroCAD@ 6.00 s/n 002040 @ 1986-2001 Aoplied Microcomputer Svstems 3/1g/2003 Subcatchment 10: 10 Runoff = 0.49 cfs @ 11.94 hrs, Volume=0.022 al Runoff by SCS TR-20 method, UH=SCS, Time Span= 0.0G20.00 hrs, dt= 0.01 hrs Type ll 2zt-hr Rainfall=1.40" Area (ac) CN Description 0.233 98 Paved roads Mcurbs & sewers Tc Length Slope Velocity Capacity Description(min) (feet) (fUft) (fUsecl (cfs) 2.2 60 0.0125 0.4 Sheet Flow SHEET FLOW - ROAI) n= 0.015 P2= 1.00"0.9 70 0.0050 'l.2 0.25 Channet Ftow, CURB AND GUTTER Area= 0.2 sf Perim= 2.7' r= 0.07 n= 0.0153.1 130 Total Pond 10P: 10P lnflow =Outflow =Primary = lnflow =Outflow = 0.49cfs @ 11.94 hrs, Volume= 0.49 cfs @ 11.%hrs, Volume= 0.49cfs @ 11.94 hrs, Volume= 0.022af 0.022 af, Atten= 0%, Lag= 9.2 r,n 0.022af Routing by Stor-lnd method, Time Span= 0.0G20.00 hrs, dt= 0.01 hrs Peak Elev= 8,209.31' Storage= 10 cf Pf ug-Ffow detention time= 0.8 min calculated lor 0.022 af (100Yo of inflow) Storage and wetted areas determined by lnegular sections Elevation Surf.Area Perim.Inc.Store Cum.Store Wet.Area(feet) (so-ft) (feet) (cubic-feet) (cubic-feet) (sq-ft) 8,209.17 8,209.58 0 0.0 0200 77.0 27 0 27 lrlmary OutFlow (Free Discharge)Ll=Orificey'Grate L2=Orificey'Grate # Routinq Invert Outlet Devices1 Primary 8,209J7' 0.12'x0.55'Horiz.Orifice/GrateX20.00 C=0.6002 Device 1 8,209.17' 2.75'x 0.33'Vert Orifice/Grate C= 0.600 Reach 11:11 0.49 cfs @ 11 .94 hrs, Volume= 0.022 af 0.48 cfs @ 11.95 hrs, Volume= 0.022 at, Atten= 2olo, Lag= 9.6 r'n HvdroCAD@ 6.00 s/n 002040 @ 1986-2001 Applied Microcomputer Svstems V1gn003 Routing by Stor-lnd method, Time Span= 0.0G20.00 hrs, dt= 0.01 hrs Max. Velocity= 2.4 fps, Min. Travel Time= 1.0 min Avg. Velocity = 0.7 fps, Avg. TravelTime= 3.5 min Peak Depth= 0.26' Capacity at bank full= 7.41 ds lnlet lnvert= 8,205.70', Outlet Invert= 8,2(X.99' 1E.0" Diameter Pipe n= 0.013 Length= 142.5' Slope= 0.0050'/ Subcatchment 20: 20 Runoff = 0.42 cfs @ 11.95 hrs, Volume= 0.016 af Runoff by SCS TR-20 method, UH=SCS, Time Span= 0.0G20.00 hrs, dt= 0.01 hrs Type ll 2,t-hr Rainfall=1.40" Area (ac) CN Description 4.258 98 Paved roads dcurbs & sewers0.193 72 Woods/grass comb., Good, HSG C0.050 74 >757o Grass cover. Good, HSG C 0.501 E6 Weighted Average Tc Length Velocity Capacity Description 2.0 120 0.0680 1.0 SheetFloq ROADWAY n= 0.015 P2= 1.00'1.3 330 0.0550 4.1 0.82 Ghannel Flour, CURB AtrlD GUTTER Area= 0.2 sf Perim= 2.2 r= 0.02 n= 0.0153.3 450 Total Middle Crcek Housing Prepared by Peak Civil Engineering, Inc. Inflow =Outflow =Primary = E,209.29 8,209,69 Type ll 24hr Rainfall=l.tlO" - 5 Yr Event Page2 t I I I t I I T I t I I I I t I T I I Routing by Stor-lnd method, Time Span= 0.0G20.00 hrs, dF 0.01 hrs Peak Elev= 8,209.42' Storage= 13 cf Plug-Flow detention time= 1.1 min calculated for 0.016 af (100o/o of inflow) Storage and wetted areas determined by lnegular sections Elevation Surf.Area Perim.Inc.Store Cum.Store Wet.Area(feet) (sq-ft) (feet) (cubic-feet) (cubic-feet) (sq-ft) Pond 20P:20P 0.42 cfs @ 1'1.95 hrs, Volume= 0.016 af 0.42 ds @ 11.95 hrs, Volume= 0.016 at Atten= 0%, Lag= 0.3 min 0.42ds@ 11.95hrs, Volume= 0.016af 0 0.0290 68.0 0 39 0 39 0 368 frimary OutFlow (Free Discharge) L1=Orifice/Grate L2=orifice/Grate I I I t I I I I I I I I I I I I I I I Middle Creek Housing Type ll 24-hr Rainfall=l.40" - 5 Yr Event frepqredby Peak Civil Engineering, Inc. page 3 HvdroCARO 6.00 s/n 002040 @ 1986-2001 Applied Microcomputer Svstems 3/19pb(F # Routing Invert Outlet Devices1 Primary 8,209.29' O.12'x0.55' Horiz. Orifice/GrateX 20.00 C= 0.6002 Device 1 8,209.29' 2.75' x0.33'Vert Orifice/Grate C= 0.600 Inflow =Outflow = Reach 21:21 0.90 cfs @ 1 1.95 hrs, Volume= 0.038 af 0.86 sfs @ 11.97 hrs, Volume= 0.038 ai Atten= 4%, Lag= 1.9 r'n Routing by Stor-lnd method, Time Span= 0.0G20.00 hrs, dt= 0.01 hrs Max. Velocity= 2.8 fps, Min. Travel Time= 1.6 min Avg. Velocity = 0.8 fps, Avg. Travel Time= 5.7 min Peak Depth= 0.35' Capacity at bank full= 7.42 ds lnlet Invert= 8,204.89', Outlet lnvert= 8,203.55' 18.0" Diameter Pipe n= 0.013 Length= 26E.5' Slope= 0.0050 ,/ Subcatchment 30: 30 Runoff = 1.09 ds@ 12.04 hrs, Volume=0.058 af Runoff by SCS TR-20 method, UH=SCS, Time Span= O.OG2O.OO hrs, dt= 0.01 hrs Type ll 24-hr Rainfall=1.40" 0.083 0.678 98 98 74 Paved parking & roofs Paved roads dcurbs & sewers 0.975 Tc Length 93 Weighted Average Slope Velocity Capacity Description Sheet Floq LANDSCAPE Woods: Light underbrush n= 0.400 P2= 1.00" Sheet Flow ASPHALT n= 0.015 P2= 1.00"2.8 21O 0.0050 1.2 0.25 Channel Ftow, CURB Al,tD GUTTER Area= 0.2 sf Perim= 2.7, r= 0.02 n= 0.01512.0 370 Total Pond 30P: 30P 6.7 40 0.2500 0.1 2.5 120 0.0375 0.8 lnflow = 1.09 ds@ 12.U hrs, Volume= Outflow = 1.09 cfs @ 12.04 hrs, Volume= Primary = 1.09 cfs@ P.A4 hrs, Volume= 0.058 af 0.058 af, Atten= 0%, Lag= 9.2 rtn 0.058 af Routing by Stor-lnd method, Time Span= 0.00-20.00 hrs, dt= 0.01 hrs Middle Greek Housing Type ll 24hr RainfalFl.40. - 5 Yr Event Prepared by Peak Civil Engineering, Inc. Page 4 HvdroCABO 6.00 s/n 002040 @ 1986-2001 Applied Microcomputer Svstems 3/1912003 Peak Elev= 8,208.24' Storage= 25 cf Plug-Flow detention time= 0.8 min calculated for 0.058 af (100% of inflorv) Storage and wetted areas determined by lnegular sections Elevation Surf.Area Perim.Inc.Store Cum.Store Wet.Area(feet) (sq-fi) (feet) (cubic-feet) (cubic-feet) (s+ft) I I I I I I I I I I I I T I I I I I I 8,207.99 8.208.50 lnflow =Outflow = 0 0.0300 65.0 0051 337 0 51 frimary OutFlow (Free Discharge)L'l=Orifice/Grate L2=orifice/Grate # Routino lnvert Outlet Devices 1 Primary 8,207.99' 0.12'x 0.55' Hodz OrificdGrate X 20.fl1 C= 0.6002 Device 1 8,207.99' 2.75'x 0.33'Vert Office/Grate C= 0.600 Reach 31: 31 1.77 ds @ 11.99 hrs, Volume= 0.096 af 1.77 ds @ 12.00 hrs, Volume= 0.096 af, Atten= 0%, Lag= 9.3 r'n Routing by Stor-lnd method, Time Span= 0.0S20.00 hrs, dt= 0.01 hrs Max. Velocity= 3.5 fps, Min. Travel Time= 0.3 min Avg. Velocity = 1.0 fPs, Avg. TravelTime= 1.2 min Peak Depth= 0.50' Capacity at bank full= 7.44 ds Inlet Invert= 8,203.45', Outlet lnvert= E,203.10' 18.0" Diameter Pipe n= 0.013 Length= 69.7 Slope= 0.0050 7 Subcatchment tO: 40 Runoff = 0.23ds@ 12.13 hrs, Volume= 0.017 af Runoff S SCS TR-20 method, UH=SCS, Time Span= 0.0G20.00 hrs, dt= 0.01 hrs Type ll 24-hr Rainfall=1.40" Area (ac) CN Description 0.272 9E Paved parking & roofs0.506 74 >75% Grass cover, Good, HSG C 0.778 82 Weighted Average I I Middle Creek Housing Type ll 24hr Rainfall=1.40'- 5 Yr Event I Prepared by Peak Civil Engineering, lnc. Page 5r HvdroCAD@ 6.00 s/n 002040 @ 1985-2001 Applied Microcomputer Svstems 3/192003 I Tc Length Slope Velocity Capacity DescriptionI (min) (feei) (ffi) (fl/sec) (cft) 17.4 125 0.0320 0.1 Sheet Flou LANDSCAPE I I I Grass: Short n= 0.150 P2= 1.00"0.1 85 0.4710 10.3 ShallowConcentrated Flow, LAI,IDSCAPE Grassed Waterway Kv= 15.0 fps0.2 36 0.0100 3.1 6.24 Channel Flou GRASS DITCH Area= 2.0 sf Perim= 4.0' r= 0.50' n= 0.030 17.7 246 Total Pond t[0P:40P I lnflovrr = 0.23 cfs @ 12.13 hrs, Volume= 0.017 at I Outflow = 0.23 cfs @ 12.13 hrs, Volume= 0.017 af, Atten= 0%, Lag= 9.9 r,n ' Primary = 0.23 cfs @ 12.13 hrs, Volume= 0.017 al I Routing by Stor-lnd method, Time Span= 0.0S.20.00 hrs, dt= 0.01 hrs I Peak Elev= 8,206.80' Storage= 1 c,f I Plug-Flow deteniion time= 0.0 min calculated for 0.017 af (100% of inflow) I Storage and wetted areas determined by lnegular sections r Elevation Surf.Area Perim. Inc.Store Cum.Store Wet.Area I (feet) (sq-ft) (feet) (cubic-feet) (cubic-feet) (sq-ft)rE,206.8000.0000 8,208.00 555 250.0 22 222 4,976 I frimary OutFlow (Free Discharge)L1=Orifice/Grate I 1 Primary 8,206.80' 0.55 x 0.12' Horiz Orifice/Grate X 24.00 C= 0.600 r Reach 41241 I lnflow = 0.23 cfs @ 12.13 hrs, Volume= 0.017 at I Outflow = 0.23 ds @ 12.13 hrs, Volume= 0.017 af, Atten= 0%, Lag= 9.2 r'n Routing by Stor-lnd method, Time Span= 0.0020.00 hrs, dt= 0.01 hrs I Max. Vbbbity= 2.4lps, Min. Traveltime= 0.3 mint Avg. Velocity = 1.1 fps, Avg. TravelTime= 0.7 min I Peak Depth= 0.15' I Capacity at bank full= 10.57 cfs lnlet InverF 8,203.80', Outlet Invert= 8,203.33' 18.0" Diameter Pipe n= 0.013 Length= 46.4' Slope= 0.0101 '/ I # Routing lnvert Outlet Devices I t Middle Oeek Housing Prepared by Peak Civil Engineering, lnc. Type ll 24-hr RainfalFl.40'- 5 Yr Event Page 6 HvdroCAD@ 6.00 s/n 002040 @ 1986-2001 Applied Microcomputer Svstems 3/192003 Subcatchment 50: 50 Runoff = 0.51 ds@ 12.28 hrs, Volume=0.099 af Runoff by SCS TR-20 method, UH=SCS, Time Span= 0.00-20.00 hrs, dt= 0.01 hrs Type ll 24-hr Rainfall=1.40" Area (ac) CN Description 0.280 74 >7570 Grass cover, Good, HSG C 14.516 73 Woods, Fair, HSG C 14.796 73 Weighted Average Tc Length Slope Veloci$ Gapacity Description(min) (fee0 (ft/ft) (fUsec) (cfs) Sheet Flor, WOODS Woods: Light underbrush n= 0.400 P2= 1.00" Shaltow Concentrated FloW WOODS Unpaved Kv= 16.1fps0.3 275 0.1090 16.0 256.U Channel Flow GRIISS DITCH Area= 16.0 sf Perim= 16.5' r= 0.97' n= 0.03) 225 2,485 Total Pond 50P: 50P 18.3 125 0.2000 0.1 3.9 2,085 0.3000 8.8 I I I I I I I t I t I I I I t t I I I lnflow =Outflor =Primary = 8,248.50 8,252.00 Routing by Stor-lnd method, Time Span= 0.0S20.00 hrs, dt= 0.01 hrs Peak Elev= 8,249.01' Storage= 98 c'f Plug-Flow detention time= 3.3 min calculated for 0.157 af (100% of inflow) Storage and wefted areas determined by lnegular sec'tions Elevation Surf.Area Perim.lnc.Store Cum.Store WEt.Area(feet) (sq-ft) (feet) (cubic-feet) (cubic-feet) (sq-ft) 1.32cfs @ '11.94 hrs, Volume= 1.30 cfs @ 11.95 hrs, Volume= 1.30 cfs @ 11.95 hrs, Volumg= 0 0.0575 95.0 0.15E af 0.157 af, Atten= 1%, Lag= 0.6 min 0.157 af 00671 737 0 671 Eqll{fl;f row (Free Discharge) # Routinq lnvert Outlet Devices 1 Primary 8,248.50' 18.0" x 102.4' long Culvert RCP, end-section conforming to fill, Ke= 0.500 Outlet lnvert= 8.243.50' S= 0.(X88 7 n= 0.013 Cc= 0.900 Middle Creek Housing Type Il 24-hr Rainfall=1.40" - 5 Yr Event Page 7Prepared by Peak Civil Engineering, I I I I I I I I t I I I I I t I I I I Reach 5{: 5l lnflow = 1.30 c'fs @ 11.95 hrs, Volume= 0.157 al Oumo* = 1.Zgcts @ tt,SS hrs, Volume= 0.157 af, Atten= 0%, Lag= 9.2 t,n Routing by Stor-lnd method, Time Span= 0.0G20'00 hrs, dF 0.01 hrs Max. Velocity= 7.1 fps, Min. Travel Time= 0.2 min Avg. Velocity = 2.8 fps, Avg. Travel Time= 0.6 min Peak Depth= 0.24' Capacity at bank full= 23.49 cfs Inlet Invert= 8,248.50', Outlet Invert= 8,243.50' 18.0" Diameter Pipe n= 0.013 Length= 100'0' Slope 0'0500'/ Reach 51.5: 51.5 Routing by Stor-lnd method, Time Span= 0.0S20.00 hrs, dt= 0.01 hrs Max. Velocity= 14.7 fps, Min. Travel Time= 0.1 min Avg. Velocity = 6.0 fps, Avg. TravelTime= 0.3 min Peak Depth= 0.15' Capacity at bank full= 65.65 sfs Inlet Invert= 8,243.(X)', Outlet lnvert= 8,203.20' 18.0" Diameter Pipe n= 0.013 Length= 101.9 Slope= 0.3906'/ Reach 52:52 fnflow = 1.29 cfs@ 11.95hrs, Volume= Outffow = 1.29 cfs@ 11.95hrs, Volume= 0.157 al 0.157 af , Atten= 0%, Lag= 9.1 t'n 0.174 af 0.174 af, Af,ten= 0%, Lag= 0.0 min lnflow = Outflow = 1.36 cfs @ 11.96 hrs, Volume= 1.36 cfs @ 11.96 hrs, Volume= Routing by Stor-lnd method, Time Span= 0.0G20,00 hrs, dt= 0.01 hrs Max. Velocity= 6.4 fps, Min. Travel Time= 0.0 min Avg. Velocity = 2.6 fps, Avg. Travel Time= 0'1 min Peak Depth= 0,27' Capacity at bank full= 19.91 cfs lnlet Invert= 8,202.90', Outlet lnvert= 8,202.53' 18.0" Diameter Pipe n= 0.013 Length= 10.3' Slope= 0'0359'/ Subcatchment 55: 55 Runoff = 1,31 cfs @ 11.94 hrs, Volume=0.059 af Runoff by SCS TR-20 method, UH=SCS, Time Span= 0'0S20.00 hrs, dt= 0.01 hrs Type ll 24-hr Rainfall=1.40" HvdroCAD@ 6.00 s/n 002040 @ '1986-2001 Applied Microcomputer Svstems 3/19/2003 Area (ac) CN Description 0.633 9E Paved parking & roofs Tc Length Slope Velocity Capacity Description(min) (feet) (ft/ft) (fUsec) (cfs) 3.3 150 0.0300 0.8 Sheet Flow, n= 0.015 P2= 1.00" Reach 56:56 Middle Creek Housing Prepared by Peak Civil Engineering, Inc. Type ll 24-hr Rainfall=l.40'- 5 Yr Event Page I 0.059 af 0.059 af, Atten= 0%, Lag= g.g rtn 0017 424 t I I I I I I I I I I t I I I I I I I lnflont =Outflow = 8,207.77 8,207.97 Routing by Stor-lnd method, Time Span= 0.0G20.00 hrs, dt= 0.01 hrs Subcatchment 60: 60 Runoff = 0.22 cfs @ 11.93 hrs, Volume=0.010 af Runoff by SCS TR-20 method, UH=SCS, Time Span= 0.0G20.00 hrs, dt= 0.01 hrs Type ll 24-hr Rainfall=1.40" Area (ac) CN Description 0.105 98 Paved roads dcurbs & seurers Tc Length Slope Velocity Capacity Description(min) (feet) (fl/ft) (ft/sec) (cft) 2.2 63 0.0150 0.5 SheetFlow, ROADWAY n= 0.015 P2= 1.(X)"0.6 43 0.0050 1.2 0.25 Channel Flow, CURB At{D GUTTER Pond 60P:60P fnffow = 0.22 cfs @ 11.93 hrs, Volums 0.010 af Outffow = 0.22 cfs @ 11.94 hrs, Volume= 0.010 af, Atten= 1%, Lag= 9,3 ttn Primary = 0.22 cfs @ 11.94 hrs, Volume= 0.010 af Routing by Stor-lnd method, Time Span= 0.0020.00 hrs, dF 0.01 hrs Peak Elev= 8,207.E6' Storage= 7 cf Plug-Flow detention time= 1.3 min calculated for 0.010 af (100% of inflow) Storage and wetted areas determined by lnegular sections Elevation Surf.Area Perim.Inc.Store Cum.Store Wet.Area(feet) (sq-ft) (feet) (cubicfeet) (cubic-feEt) (sq-ft) 1.31 cfs @ 11.94 hrs, Volume= 1.31 cfs @ 11.94 hrs, Volume= 0 0.0250 73,0 0 17 I r Middle Creek Housing Type ll 24hr Rainfall=1.40' - 5 Yr Event I Prepared by Peak CivilEngineering, Inc. Page 9I HvOioClO@ 6.00 s/n OO2O+O 6 tga6-260t Rpptied Microcomputer Svstems 3/19/2003 I frimary OutFlow (Free Discharge) L-1=Orifice/Grate I L2=orificdcrate I # Routinq lnvert Outlet Devices r 1 Primary 8,207.77' 0.12' x 0.55' Horiz. Orifice/Grate X 20.00 C= 0.600 I 2 Device 1 8,207.77' 2.75' x 0.33' VerL Orifice/Grate C= 0.600 Reach 61: 61 - lnflow = 1.92 cfs @ 11.99 hrs, Volume= 0.106 af I Outflow = 1.91 cfs @ 12.00 hrs, Volume= 0.106 ai Atten= 0%, Lag= 9.5 t'n I Routing by Stor-lnd method, Time Span= O.o0-2O.Oo hrs, dt= 0.01 hrs Max. Velocity= 4.0 fps, Min. Travel Time= 0.7 min I Avg. Velocity = 1.2 fps, Avg. TravelTime= 2.4 min I Peak Depth= 0.48' I Capacity at bank full= 8.79 cfs I Inlet Invert= 8,203.00', Outlet Invert= 8,201.82'r 18.0" Diameter Pipe n= 0.013 Lengrth= 168.7' Slope= 0.0070 7 r SubcatchmentTO:70 Runoff = 0.43 cfs @ 11.95 hrs, Volume= 0.017 af I Runoff by SCS TR-20 method, UH=SCS, Time Span= 0.0G20.00 hrs, dt= 0.01 hrs Type ll 24-hr Rainfall=1.40" Area (ac) CN Description 0.196 98 Paved roads dcurbs & sewers 0.066 98 Paved parking & roob 0.310 74 >75% Grass cover, Good, HSG C I I 0.572 85 Weighted Average I Tc Length Slope Velocity Capaci$ Descriptionr (min) (feet) (fi/ft) (fUsec) (cfs) 2.4 73 0.0150 0.5 Sheet Flow ROADWAY n= 0.015 P2= 1.00" I 1.2 140 0.0120 1.9 0.38 Ghannel Flow CURB AtlD GUTTER I I Pond 70P:70P I Inflow = 0.43 cfs @ 11.95 hrs, Volume= 0.017 al Outflow = 0.43 cfs @ 11.95 hrs, Volume= 0.017 af, Atten= 0%, Lag= 9.2 rn'n I Primary = 0.43 cfs @ 11.95 hrs, Volume= 0.017 al I I Middle Greek Housing Prepared by Peak Civil Engineering, Inc. Type ll 24hr Rainfall=l.40'- 5 Yr Event Page 10 HvdroCAD@ 6.00 s/n 002040 @ 198&2001 Applied Microcomputer Svstems 3/1912003 Routing by Stor-lnd method, Time Span= 0.0G20.00 hrs, dt= 0.01 hrs Peak Elev= 8,206.66' Storage= 6 cf Plug-Flor detention time= 0.6 min calculated for 0.017 af (10006 of inflow) Storage and wetted areas determined by lnegular sections Elevdtion Surf.Area Perim.Inc,Store Cum.Store Wet.Area(feet) (sq-ft) (feet) (cubic-feet) (cubic-feet) (s+ft} 8,206.53 8,206.73 0 0.0145 55.0 0 10 0 10 0 241 frimary OutFlow (Free Discharge) L1=Orific€/Grate t-2=orifice/Grate # Rortinq Invert Outlet Devices 1 Primary 8,206.53' 0.12'x0.55'Horiz.Orlflce/GrateX20.00 G=0.6002 DeMce 1 8,206.53' 2.75'x O.tXl'Vert Odfice/Grate C= 0.600 I I t I t I I t I t I t t I I I I I I Inflort =Outflor = Reach 71=71 3.58 cfs @ 11.97 hrs, Volume= 0.296 af 3.58 cG @ 11.97 hrs, Volume= 0.296 al Atten= 0%, Lag= 9.2 rtn Routing by Stor-lnd method, Time Span= 0.0G20.00 hrs, d[= 0.01 hrs Max. Velocity= 5.4 fps, Min. Travel Time= 0.3 min Avg. Velocity = 1.9 fps, Avg. Travel Time= 0.7 min Peak Depth= 0.60' Capacity at bank full= 10.53 cfs fnlet fnvert- 8,201.72', Outlet Invert= 8,200.89' 18.0" Diame{er Pipe n= 0.013 Length= 82.6' Slope= 0.0100'/ Subcatchment 80: 80 Runoff = 0.10 cfs @ 12.06 hrs, Volume=0.011af Runoff by SCS TR-20 method, UH=SCS, Time Span= 0.0G.20.00 hrs, dt= 0.01 hrs Type ll 2zl-hr Rainfall=l.40" Area (ac) CN Description 1.1U 73 Woods, Fair, HSG C 0.535 74 >75% Grass cover, Good, HSG C 1.639 73 Weighted Average Middle Creek Housing Type ll 24hr Rainfall=l.40" - 5 Yr Event Page 11Prepared by Peak Civil ineering, Inc, 1986-2001 Tc Length Slope 7.0 50 0.3s00 0.1 2.1 430 0.4850 3.5 Capacity Description Sheet Floq WOODS Woods: Light underbrush n= 0.400 P2= 1.00" Shallow Concentrated Floq WOODS/I-ANDSCAPE cfs Woodland Kv= 5.0 fps t t I I I I I I I I I I I I t I I I I 9.1 480 Total Pond 80P:80P Routing by Stor-lnd method, Time Span= 0.0G20.00 hrs, dt= 0.01 hrs Peak Elev= 8,205.58' Storage= 27 cf Pf ug-Ff our detention time= 1 ,2 min calculated for 0.042 al (100o/o of inflow) Storage and wetted areas determined by Inegular sections Inflow = 0.80 cfs @ 11.95 hrs, Volume= Outflow = 0.80 cfs @ 11.95 hrs, Volume= Primary = 0.80 cfs @ 11.95 hrs, Volume= O.O42 at 0.042 al, Atten= 0%, Lag= 9.4 r'n 0.042 af 0071 48 Elevation SurfArea Perim.Inc.Store Cum.Store Wet.Area(feet) (sq-ft) (feet) (cubic-feet) (cubic-feet) (sq-ft) 8,205.38 8,205.91 Inflow =Outflow = Inflow =Outflow = 0 0.0400 75.0 0 71 frimary OutFlow (Free Discharge)L1=Orificey'Grate L2=Orifice/Grate # Routing Invert Outlet Devices1 Primary 8,205.38' 0.12' x 0.55' Horiz Orifice/Grate X 20.00 C= 0.6002 Device 1 8,205.38' 2.75'x 0.33'Vert Orifice/Grate C= 0.600 Reach 81: 81 0.10cfs @ 12.06 hrs, Volume= 0.011af 0.10 cfs @ 12.ffi hrs, Volume= 0.011 at Atten= 0%, Lag= 0.0 min Routing by Stor-lnd method, Time Span= 0.0O20.00 hrs, dt= 0.01 hrs Reach 82:82 4.35 cfs @ 11.97 hrs, Volume= 0.338 af 4.35 cfs @ 11.97 hrs, Volume= 0.338 af, Atten= 0%, Lag= g.g *'n Routing by Stor-lnd method, Time Span= 0.00-20.00 hrs, dt= 0.01 hrs Max. Velocity= 7.3 fps, Min. Travel Time= 0.0 min Avg. Velocity = 2.4 fps, Avg, TravelTime= 0.1 min Middle Creek Housing Prepared by Peak Givil Engineering, Inc. Type ll 24hr Rainfalbl .40' - 5 Yr Event Page12 I I I I I I I I I I I t I I I t I I I HvdroCAD@ 6.00 s/n 002040 @ 1986-2001 Applied Microcomputer Svstems 3/192003 Peak Depth= 0.56' Capacity at bank full= 14.86 sfs Inlet Invert= 8,200.79', Outlet Invert= 8,200.51' 18.0" Diameter Pipe n= 0.013 Length= 14.0' Slope= 0.0200'/ REach 83: 83 lnflo,v =Outflow = 4.35 cfs @ 11.97 hrs, Volume= 0.338 af 4.31 cfs @ 11.98 hrs, Volume= 0.337 al Atten= 1%, Lag= 0.6 min Routing by Stor-lnd method, Time Span= 0.0G20.00 hrs, dt= 0.01 hrs Max. Velocity= 7.7 fps, Min. Travel Time= 0.8 min Avg. Velocity = 2.6 fps, Avg. TravelTime= 2.5 min Peak Depth= 0.53' Capacity at bank full= 16.17 cfs lnlet lnvert= 8,199.40', Outlet Invert= 8,190.10' 'f8.0" DiameterPipe n= 0.013 Length=392.7 Slope= 0.0237'l Subcatchment 85: 85 Runoff = 0.80 cfs @ 11.94 hrs, Volume=0.031 af Runoff by SCS TR-20 method, UH=SCS, Time Span= 0.0G20.00 hrs, dt= 0.01 hrs Type ll 24-hr Rainfall=1.40" Area (ac) CN Description 0.47 98 Paved parking & roofs0.217 74 >75% Grass cover. Good, HSG C 0.664 90 Weighted Average Tc Length Slope Velocity Capacity Description(min) (feetl (ffiI (fUsec) (cfs) 2.4 92 0.0250 0,6 1.0 245 0.0570 4.2 Sheet Flor, PARKING n= 0.015 P2= 1.00" 0.83 Channel Floq CURBAND GUTTER Nea=0.2sf Perim= 2.7' r= 0.07' n=0.015 3.4 337 Total Subcatchment 90: 90 Runoff - 0.13 cfs @ 11.95 hrs, Volume= 0.006 af Runoff by SCS TR-20 method, UH=SCS, Time Span= 0,0S20.00 hrs, dt= 0.01 hrs Type ll 24-hr Rainfall=1.40" 1986-2001 Area (ac) CN Description 0.337 70 Woods, Good, HSG C 0.276 74 >75% Grass cover, Good, HSG C 0.078 9E Paved oarkins & roofs 0.691 75 Weighted Average Tc Length Slope Velocity Capacity Description (min) (feet) (fUft) (fUsecl (cfs) Middle Creek Housing Prepared by Peak Civil Engineering, Inc. 0.6 100 0.4390 2.6 0.9 190 0.5360 3.7 0.1 190 0.1895 31.8 Type ll 24hr Rainfall=l.40'- 5 Yr Event Page 13 Sheet Floq WOODS Smooth surfaces n= 0.01 1 P2= 1.00" Shallow Concentrated Flow WOODS Woodland Kv= 5.0 fps 1,016.37 GhannelFlow, GRASS DITGH I I t I I I I I I I I I I I I I I I I Nea=32. Pond 90P:90P r= 1.79' n= lnflow =Ontflow =Primary = 0.13 cfs @ 11.95 hrs, Volume= 0.09 cfs @ 11.99 hrs, Volume= 0.09 cfs @ 11.99 hrs, Volume= 0.006 af 0.006 af, Atten= 26%, Lag= 2.5 min 0.006 af Routing by Stor-lnd method, Time Span= 0.0$20.00 hrs, dt= 0.01 hrs Peak Efev= 8,245.15' Storage= 22 cf Plug-Flow detention time= 11.2 min calculated for 0.006 af (99% of inflow) Storage and wetted areas determined by lrregular sections Elevation Surf.Area Perim.lnc.Store Cum.Store Wet.Area 1.6 480 Total 8,245.00 8,248.50 0 0.0460 80.0 0 528 0 537 0 537 Primary OutFlow (Free Discharge)t-t=clMert # Routing lnvert Outlet Devices 1 primai 8,245.00' 12.0" x 106,5' long Culvert RCP, end-section conforming- to fill, Ke= 0.500 Outlet lnvert= 8.239.50' S= 0.0516 7 n= 0'013 Cc= 0.900 Reach 91:91 Inflow = 0.09 cfs @ 11.99 hrs, Volume= 0.006 af Outflow = 0.09 c'fs @ 1 1 .99 hrs, Volume= 0.006 al Atten= 1%, Lag= g'4 t'n Routing by Stor-lnd method, Time Span= 0.00-20.00 hrs, dt= 0'01 hrs Max. Velocity= 3.5 fps, Min. Travel Time= 0.5 min Avg. Velocity = 1.6 fps, Avg. Travel Time= 1.1 min Middle Grcek Housing Type ll 24hr RainfalFl.40' - 5 Yr Event Prepared by Peak Civil Engineering, Inc. page 14 HvdroCAD@ 6.00 s/n 002040 @ 1986-2001 Applied Microcomputer Svstems 3/1glZ0O3 Peak Depth= 0.08' Capacity at bank full= 8.10 sfs lnlet lnvert= 8,245.00', Outlet lnvert= 8,239.50' 12.0" Diameler Pipe n= 0.013 Length= 106.5' Slope= 0.0516 7 Subcatchment 100: 100 Runoff = 0.60 cfs @ 11.93 hrs, Volume=0.024 af Runoff by SCS TR-20 method, UH=SGS, Time Span= 0.0G20.00 hrs, dt= 0.01 hrs Type ll 24-hr Rainfall=1.40" Area (ac'l CN Description 0.044 74 >75% Grass cover, Good, HSG C0.289 9E Paved parkino & roofs 0.333 95 Weighted Average Tc Length Slope Velocig Capacity Description(min) (feet) (ffi) (fUsec) (cfs) 0 10 0 10 0 199 I t I I I I I I t I I I t I I I I I I 2.3 109 0.0367 0.8 0.4 90 0.0440 3.7 SheetFloq PARXING n= 0.015 P2= 1.0O' 0.73 Channel Floq GURBAND GUTTER- Area=O.2sf Perim=2.7 e0.07,n=0.015 Pond 100P:100P Inflow = " 0.60 cfs @ 11.93 hrs, Volume= Outflow = 0.60 cfs @ 11.93 hrs, Volume= Primary = 0.60 cfs @ 11.93 hrs, Volume= 0.024af 0.024 af, Atten= 0%, Lag= g.g r,n 0.024af Routing by Stor-lnd method, Time Span= 0.00-20.00 hrs, dt= 0.01 hrs Peak Elev= 8,242.71' Storage= 0 cf Plug-Ffow detenlion time= 0.0 min calculated for 0.024 af (100% of inflow) Storage and wetted areas determined by lnegular sections Elevation Surf.Area Perim.Inc.Store Cum.Store Wet.Area(feet) (sq-ft) (feet) (cubic-feet) (cubic-feet) (sq-ft) 8,242.70 8,243.00 0 0.0100 50.0 frimary OutFlow (Free Discharge) F1=Orifice/Gratel-2=Orificey'Grate # Routinq Invert Outlet Devices 1 Primary 8,242.70' 0.12'x 0.55' Horiz. Orifice/Grate X 20.00 C= 0.6002 Primary 8,242.70' 2.75'x 0.33'Vert. Orifice/Grate C= 0.600 Middle Creek Housing Prepared by Peak Civil Engineering,Inc, Type ll 24hr Rainfall=l.40' - 5 Yr Event Page 15 1 Reach 101: 101 lnflow =Outflow = 0.62 cfs @ 11.94 hrs, Volume= 0.62 cfs @ 11.95 hrs, Volume= 0.030 af 0.030 af, Atten= 1%, Lag= 9.5 r'n 0.026 af Routing by Stor-lnd method, Time Span= 0.OG2O.OO hrs, dt= 0.Ol hrs Max. Velocity= 6.2 fps, Min, Travel Time= 0.7 min Avg. Velocity = 2.0 fps, Avg. Travel Time= 2.1 min Peak Depth= 0.19' Capacity at bank full= 8.21 cfs fnfet lnvert= 8,239.00', Outlet lnvert= B,22S.SO, 12.0" Diameter Pipe n= 0.013 Length= 2tr4,4' Slope= 0.0531 ,/ Subcatchment 110: 1{0 Runoff = 0.63 cfs @ 11.93 hrs, Volume= Runoff !y 9CF TR-20 method, UH=SCS, Time Span= 0.0G20.00 hrs, dt= 0.01 hrs Type ll 24-hr Rainfall=1.40" 0.015 0.296 >75% Grass cover, Good, HSG C I I I I I I I I I I t I I I I I I I I 0.311 Weighted Average Tc Length Slope Velocity Capacity Description mrn 1.8 0.9 95 220 0.0520 0.0500 0.9 3.9 Sheet Floq PARKING n= 0.015 P2= 1.00" 0.78 Channel Flow' CURB AND GUTTER 315 Total Pond 110P:110P sf Perim= 0.026 af 0.026 al Atten= 0%, Lag= 9.1 rtn 0,026 af lnflow = 0.63 cfs @ 11.93 hrs, Volume=Outflow = 0.63 c,fs @ 11.93 hrs, Volume=Primary = 0.63 cfs @ 11.93 hrs, Volume= Routing by Stor-lnd method, Time Span= O.0G2O.O0 hrs, dt= 0.01 hrs Peak Elev= 8,229.67' Storage= 6 cf Plug-Ffow detention time= 0.4 min calculated for 0.026 at (100Vo of inflow) Storage and wetted areas determined by lrregular sectioni Elevation Surf.Area Perim.Inc.Store Cum.Store Wet.Area 8,229.50 8,229.80 0 199 0 1010 0 100 0.0 50.0 cubic- Middle Creek Housing Prepared by Peak Civil Engineering, lnc, Type ll 24hr RainfalFl.40' - 5 Yr Event Page 16 HvdroCAD@ 6.00 s/n 002040 @ 1986-2001 Applied Microcomputer Svstems 3/1912003 frlmary OutFlow (Free Discharge) L'l=Orificey'Grate L2=orifice/Grae # Routins1 Primary 8,229.50' 0.12'x0.55'HorizOrificefGrateX20.00 C=0.6002 Device 1 8.229.50' 2.75'x 0.33'Vert Orifice/Grate C= 0.500 I I I I T I t I I I I I I I I I I I I lnflont =Outfloul = Reach 1112111 1.23 cfs @ 11.94 hrs, Volume= 0.057 af 1.23cfs@ 'l'l.g4hrs, Volume= 0.057af, Atten=0%, Lag=0.1 min Routing by Stor-lnd method, Time Span= 0.0S20.00 hrs, d1= 0.01 hrs Max. Velocity= 9.6 fps, Min. Travel T'ime= 0.1 min Avg. Velocity = 2.8 fPs, Avg. Travel Time= 0.5 min Peak Depth= 0.22' Capacity at bank full= 11.50 cfs fnlet fnvert= 8,224.33', Outlet lnvert= 8,216.00' 12.0" Diameter Pipe n= 0.013 Lengilh= 80.O Slope= O.'lo4.'l'l Middle Creek Housing Prepared by Peak Civil Engineering, Inc. Type ll 24-hr Rainfall=l.40' - 5 Yr Event Page 17 HvdroCAD@ 6.00 s/n 002040 @ 1986-2001 Applied Microcomputer Svstems 3/19/2003 Reach 11:11 Hydrograph Plot Reach 21:21 Hydrograph Plot 12 13 14 15 16 17 18 t9 20 Middle Creek Housing Prepared by Peak Civil Engineering, Inc. Type Il 24hr Rainfalts/.40'- 5 Yr Event Page 18 I I I HvdroCAD@ 6.00 s/n 002040 @ 1986-2001 Applied Microcomputer Svstems 3/19/2003 74910 11 12't3 14 15 16 17 lE1920 nme (houE) Reach 41:41 Hydrograph Plot 0.1 0. 0.1 0.1 8 910 11 12 13 14 't5 16 17 18 1920 Tlmo (houn) ,g CI !0 E o o tr Reach 3{: 31 Hydrograph Plot Middle Creek Housing Type ll 2*hr Rainfall=1.40" - 5 Yr Event Prepared by Peak Civil Engineering, Inc. Page 19 HvdroCAD@ 6.00 s/n 002040 @ 1986-2001 Applied Microcomputer Svstems 3/1 9/2003 o o 3 IL 7E910 11 12 13 nme (houF) Reach 51.5:51.5 Hydrograph Plot 14 15 16 17 '18 Reach 51:51 Hydrograph Plot : 4ll o E 8 910 11 12 Tim€ (hours) 191E1716IR1413 Middle Creek Housing Prepared by Peak Civil Engineering, Inc. Type ll 24-hr Rainfall=l.40' - 5 Yr Event Page 20 I I t HvdroCAD@ 6.00 s/n 002040 @ 1986-2001 Applied Microcomputer Svstems 3/19/2003 67 E910 l',1 12 13 14 15 16 17 18 1S20 Tlme (houtB) Reach 56:56 Hydrognph Plot 8 9 10 11 12 13 14 15 16 17 1E '19 20 Tlme (hours) n .J 0ii 4(J IC'ii Reach 52=52 Hydrograph Plot ' : : Middle Creek Housing Type ll 2$hr Rainfall=l.40'- 5 Yr Event Page 21Prepared by Peak Civil Engineering, lnc. Reach 61: 61 Hydrograph Plot 012 3 4 5I7 6 910 11 12 nme (hours) Reach 71271 o .J l!- 17 18 19m 7 A 910 11 Timo (hours) 13 14 '15 16 Hydrograph Plot 12 13 14 1s 16 17 18 19 20 Middle Creek Housing Type Il24hr Rainfall=1.40'- 5Yr Event Prepared by Peak Civil Engineering, Inc. Page2? HvdroCAD@ 6.00 s/n 002040 @ 1986-2001 Applied Microcomputer Svstems 3/19/2003 Reach 81: 81 Hydrograph Plot 0.11 0.1 0.07 6.0. ol I I I ;0.(90 0.03 0.025 o.o2 0.015 0.01 8 9 10 11 12 nme oours) Reach 82'82 Hydrograph Plot 6 IJ 'l! 8 910 11 12 13 14 15 16 17 18 19' Tlme (hours) I I I t I I I I I t I I I I T I I I I Middle Greek Housing Type ll24-hr Rainfall=l.40''SYrEvent Prepared by Peak Civil Engineering, Inc. Page23 Hvd;oCAD@ 6.00 eh OO2O4O @ 1986-2001 Applied Microcomputer Svstems 3/192003 Reach 83: 83 HydrograPh Plot Hydrograph Plot Middle Greek Housing Prepared by Peak Civil Engineering, lnc. Type ll 24hr Rainfall=1.40' - 5 Yr Event Page24 I I T HvdroCAD@ 6.00 s/n 002040 @ 1986-2001 Applied Microcomputer Svstems 3/19/2003 Reach 101: 101 Hydrograph Plot E 910 11 12 13 14 15 16 Tlmo (hout) Reach 111= 111 Hydrograph Plot --".i.- -!-."-i -- "-1.. . i'-. . 1 0.1 n 0.0 .Eo B ]|. 910 11 Tlme (houF) I6 12 '13 14 1A 17 18 19 I I il I ir il rl t I t T I I ./ I r Middle Creek Housing Type ll 24hr Rainfall=1.70'- 10 Yr Event I Prepared by Peak Civil Engineering, lnc. Page 1r HvdioCAD@ 6.00 s/n 002040 @ 1986-2001 Applied Microcomputer Svstems 3/19/2003 Subcatchment 10: 10I Runoff = 0.60 cfs @ 11.% hrs, Volume= 0.027 al I Runoff by SCS TR-20 method, UH=SCS, Time Span= 0.0G20.00 hrs, dt= 0.01 hrs Type ll 24-hr Rainfall=1.70' I Area (ac) CN Description 0.233 98 Paved roads dcurbs & sewers I Tc Length Slope Veloci$ Capacity Descriptionr (min) (feet) (ffi) (fUsec) (cfs) 2.2 60 0.012s 0.4 Sheet Floq SHEET FLOW' ROAD I n= 0.015 P2= 1.00"r 0.9 70 0.0050 1.2 0.25 channel Flou cuRB At{D GUTTER II Pond 10P: 10P I Inflow = 0.60 cfs @ 11.94 hrs, Volume= 0.027 af Outflor = 0.60 cfs @ 11.94 hrs, Volume= 0.O27 af, Atten= 0%, Lag= 9.2 ttn I Primary = 0.60 cfs @ 11.% hrs, volume= 0'027 af T Routing by Stor-lnd method, Time Span= 0.0G20.00 hrs, dt= 0.01 hrs I Peak Elev= 8,209.34' Storage= 11 cfr Plug-Flow detention time= 0.8 min calculated tor 0.027 af (100% of inflow) Storage and wetted areas determined by Inegular sections I Elevation Surf.Area Perim. Inc.Store Cum.Store Wet.Area(feet) (sq-ft) (feet) (cubic-feet) (cubic-feet) (sq-ft) 18,209.1700.0000I s,2og.sa 2oo 77.0 27 27 472 r frimary OutFlow (Free Discharge)I L1=orific€/GrateI L2=orifice/Grate # Routinq Invert Outlet Devices T T 1 Primary 8,209.17' 0.12'x0.55'Horiz.Orifice/GrateX20.00 C=0.6002 Device 1 8,209.17' 2.75'x 0.33'Vert Orifice/Grate C= 0.600 Reach 11:11 I Inflow = 0.60 cfs @ 11.94 hrs, Volume= 0.027 al I Outflow = 0.59 cfs @ 11.95 hrs, Volume= 0.027 af, Atten= 1%, Lag= 9.6 t'n I I Middle Grcek Housing Prepared by Peak Civil Engineering, Inc. Type ll 24hr Rainfall=l.70' - 10 Yr Event Page2 HvdroCADO 6.00 s/n 002M0 @ 1986-2001 Applied Microcompuler Svstems 3/192003 Routing by Stor-lnd method, Time Span= 0.00-20.00 hrs, dF 0.01 hrs Max. Veloci$= 2.5 fps, Min. Travel Time= 0.9 min Avg. Velocity = 0.7 fps, Avg. Travel Time= 3.3 min Peak Depth= 0.29' Capacity at bank full= 7.41 ds Inlet lnvert: 8,205.70', Outlet lnvert= 8,204.99' 18.0" Diameter Pipe n= 0.013 Length= 142.5' Slope= 0.0050'/ Subcatchment 20: 20 Runoff = 0.63 cfs @ 11.94 hrs, Volume=0.024 at Runoff by SCS TR-20 method, UH=SCS, Time Span= 0.0S20.00 hrs, dt= 0.01 hrs Type ll 24-hr Rainfall=1.70" Area (ac) CN j' Description 0.258 98 Paved roads dcurbs & sewers0.193 72 WoodJgrass comb., Good' llSG C 0.050 74 >75% Grass cover, Go@LL!981C 0.501 86 Weighted Average Tc Length Slope Velocity CapaciV Desuiption(min) (feet) (ft/fi) (fl/sec) (cfs) I I I I I t I I I t I I I t t I I I I 2.0 120 0.0680 1.0 1.3 330 0.0550 4.1 Sheet Flow, ROADWAY n= 0.015 P2= 1.(X)" O.82 Ghannel Floq CURBANDGUTIER Area= 0.2 sf Perim= 2.7' r= 0,07 n= 0.015 3.3 450 Total Pond 20P:20P lnflow = 0.63 cfs @ 11,94 hrs, Volume- 0.024 at Outflow = 0.62 cfs @ 11.95 hrs, Volume= 0.024 al, Atten= 0%, Lag= 9.3 r'n Primary = 0.62 cfs @ 11.95 hrs, Volume= 0.024 al Routing by Stor-lnd method, Time Span= 0.0G20.00 hrs, dt= 0.01 hrs Peak Elev= 8,209.46' Storage= 17 cf Plug-Flow detention time= 1 .0 min calculated lor 0.024 af (100% of inflow) Storage and wetted areas determined by lnegular sections Elevation Surf.Area Perim.Inc.Store Cum.Store Wet.Area(feet) (s+ft) (feet) (cubiofeet) (cubic-feet) (s+ft) 8,209.29 8,209.69 0 0.0290 68.0 0 368 0 39 0 39 primary OutFlow (Free Discharge) t-1=Orifice/Grate t-2=orifice/Grate Middle Creek Housing Prepared by Peak Civil Engineering,I 1 nc. Type ll 24hr Rainfall=l.70" - 10 Yr Event Page 3 I I I I t I I I I I I I t I I I I T I @1 Outlet Primary Device 1 8.209.29' 8,209.2g', 0.12' x 0.55' Horiz Ortfice/Grate X 20.00 C= 0.600 2.75'x 0.33'Vert Orifice/Grate C= 0.600 lnflow =Outflow = Reach 21:21 1.21 cfs@ 11.95hrs, Volume= 0.051 af 1.17 cfs @ 11.96 hrs, Volume= 0.051 al Atten= 3%, Lag= 9.9 r'n 0.079 af Routing by Stor-lnd method, Time Span= O.O0'2O.OO hrs, dt= 0.01 hrs Max. Velocity= 3.1 fps, Min. Travel Time= 1.5 min Avg. Velocity = 0.9 fps, Avg. Travel Time= 5.3 min Peak Depth= 0.40' Capacity at bank full= 7.42 efs lnlEt lnvert= 8,204.89', Outlet lnvert= 8.203.SS' 18.0" Diameter Pipe n= 0.013 Length= 268.5' Slope= 0.0OSO T Subcatchment 30: 30 Runoff = 1.45ds@ 12.M hrs, Volume= Runoff !V SC9 TR-20 method, UH=SCS, Time Span= O.OG2O.OO hrs, dt= 0.01 hrs Type ll 2zl-hr Rainfall=1.70" ' 0.083 0.678 98 Paved parking & roofs98 Paved roads dcurbs & sewers 0.975 93 Tc Length Weighted Average Sfgpe Velocity Capacity Description 6.7 2.5 2.8 40 0.2500 120 0.0375 210 0.0050 0.1 0.8 1.2 Sheet Flow LANDSCAPE Woods: Light underbrush n= 0.400 P2= 1.00,' Sheet Floq ASPHALT n= 0,015 P2= 1.00" O.25 Channel Floq CURB AND GUTTER Pond 30P: 30P Inflow =Outflow =Primary = 1.45 efs @ 12.04 hrs, Volume= 1.45cfs @ 12.U hrs, Volume= 1.45 cfs @ 12.04 hrs, Volume= 0.079 af 0.079 af, Atten= 0%, Lag= 9.2 r'n 0.079 af Routing by Stor-lnd method, Time Span= O.0O-20.00 hrs, dt= 0.01 hrs Mlddle Grcek Housing Type ll 24hr Rainfall=l.70'- 10 Yr Event Prepared by Peak Civil Engineering, Inc. Page 4 HvdroCAD0 6.00 s/n 002040 @ 1986-2001 Applied Microcomputer Svstems 3/19/2003 Peak Elev= 8,208.29' Storage= 30 cf Plug-Flor detention time= 0.7 min calculated for 0.078 af (100% of inflow) Storage and wefted areas determined by lnegular sections Elevation Surf.Area Perim.Inc.Store Cum.Store Wet.Area(feet) (s+ft) (feet) (cubic-feet) (cubic-feet) (so-ft) I I t I I I t I I I t I I I I I I I I 8,207.99 8,208.50 lnflow = Outflottr = 0 0.0300 65.0 0 51 0051 337 fdmary OutFlow (Free Discharge) L1=Orifice/Grate L2=orifice/Grate # Ror.rtino lnvert Outlet Devices 1 Primary 8,207.99' 0.12' x 0.55' Horlz. Orifice/Gnte X 20.00 C= 0.6002 Device 1 8,207.99' 2.75'x 0.33'Vert Orifice/Grate C= 0.600 Reach 31: 31 2.38 cfs @ 11.99 hrs, Volume= 0.129 af 2.38 cfs @ 11.99 hrs, Volume= 0.129 af, Atten= 0%, Lag= 0.2 min Routing by Storlnd method, Time Span= 0.0G20,00 hrs, dt= 0.01 hrs Max. Velocity= 3,7 fps, Min. Travel Time= 0.3 min Avg. Velocity = 1.1 fps, Avg. Travel Time= 1.1 min Peak Depth= 0.5E Capacity at bank full= 7.44 ds lnlet Invertr 8,203.45', Outlet lnverF E,203.10' 18.0" Diameter Pipe n= 0.013 Length= 69.7 Slope= 0.0050'/ Subcatchment 40: tO Runoff = 0.39 ds@ 12.12 hrs, Volume=0.026 af Runoff by SCS TR-20 method, UH=SCS, Time Span= 0.0G20,00 hrs, dt= 0.01 hrs Type ll 24-hr Rainfall=1.70" Area (ac) CN Description 0.272 98 Paved parking & rooft 0.506 74 >75% Grass cover, Good, HSG C 0.778 82 Weighted Average I r Middle Greek Housing Type Il 24-hr Rainfall=l.70'- 10 Yr Event I Prepared by Peak Civil Engineering, Inc, page Sr HvdroCAD@ 6.00 s/n 002040 @ 1986-2001 Applied Microcomputer Svstems 3/1g/2003 I Tc Length Slope Velocity Capacity DescriptionI (min) (feet) (fUft) (fUsec) (cfs) 17.4 125 0.0320 0.1 Sheet Flow, |_ANDSCAPE I Grass: Short n= 0.150 P2= 1.00" I 0.1 85 0.4710 10.3 Shallow Concentrated Flow, ISNDSCAPE Grassed Waterway Kv= 15.0 fps r 0.2 36 0.0100 3.1 6.24 Channel Flow, GRASS DTTCH I Area= 2.0 sf Perim= 4.0' r= 0.50' n= 0.03017.7 246 Total I Pond t$0P:40P - lnflow = 0.39 ds @ 12.12 hrs, Volume= 0.026 af I Outflow = 0.39 cfs @ 12.12 hrs, Volums= 0.026 af, Atten= 0%, Lag= 9.9 r,nI Primary = 0.39 ds @ 12.12 hrs, Volume= 0.026 af I Routing by Stor-lnd method, Time Span= 0.0G20.00 hrs, dts 0.01 hrsI Peak Elev= 8,206.81' Storage= 1 cf I Plug-Flow detention time= 0.0 min calculated for 0.026 at (100To of inflow) I Storage and wetted areas determined by lnegular sestions Elevation Surf.Area Perim. Inc.Store Cum.Store Wet.Area I (feet) (s+ft) (feet) (cubic-feer) (cubic-feet) iiq-ft)r8,206.8000.0000 8,208.00 555 250.0 222 2n 4,976 I frimary OutFlow (Free Discharge)L1=Orifice/Grate I # Routinq Invert Outlet Devices1 Primary 8,206.80' 0.55'x0.1?Horiz.Orifice/GrateXZ.00 C=0.600 r Reach 41:41 r lnflow = 0.39 ds @ 12.12 hrs, Volume= 0.026 af I Outflor = 0.39 ds@ 12.12 hrs, Volume= 0.026 af, Atten= 0%, Lag= 9.2 r'n Routing by Stor-lnd method, Time Span= 0.0G20.00 hrs, dt= 0.01 hrs I Max. Velocity= 2.8 fps, Min. Travel Time= 0.3 mint Avg. Velocity = 1.2 fps, Avg. TravelTime= 0.6 min I Peak Depth= 0.20' I Capacity at bank full= 10.57 cfs Inlet Invert= 8,203.80', Outlet lnvert= 8,203.33, 18.0" Diameter Pipe n= 0.013 Length= 46.4' Slope= 0.0101 ,/ I t I Middle Creek Housing Prepared by Peak CMil Engineering, Inc. 3.9 2,085 0.3000 0.3 275 0.1090 Type ll 24hr Rainfalbl.70'- 10 Yr Event Page 6 HvdroCAD@ 6.00 s/n 002040 @ 198G2001 Applied Microcomputer Svstems 3/1912fi)3 Subcatchment 50: 50 Runoff = 1.73ds@ 12.23hrs, Volume=0.205 af Runoff by SCS TR-20 method, UH=SCS, Time Span= 0.0G20.00 hrs, d1= 0.01 hrs Type ll 24-hr Rainfall=1.70" Area (ac) CN Description 0.280 74 >75% Grass cover, Good, HSG C 14.516 73 Woods, Fair. HSG C 14.7% 73 Weighted Average Tc Length Slope Velocity Capacity Description(min) (feet) (fr/ft) (fUsec) (cfs) 18.3 125 0.2000 0.1 Sheet Floq WOODS Woods: Light underbrush n= 0.400 P2= 1.00"8.8 Shallow Concentrated Floq WOODS Unpaved Kv= 16.1fps16.0 2ffi.U GhannelFlow' GMSS DITCH Area= 16.0 sf Perim= 16.5' r= 0.97 n= 0.030 I I I t t I I I I I I I t I I 22.5 2,485 Total fnflor = 1.90 ds@ 12.22hrs, Outflow = 1.90 cfs @ 12.23 hrs, Primary = 1.90 cfs @ 12.23 hrs, Pond 50P:50P Vofume= 0.278 atVofume= 0.278a1, Atten= 0%, Lag= 9.5 ttnVolume= 0.278 aI 000671 671 737 Routing by Stor-lnd rnethod, Time Span= 0.00-20.00 hrs, dt= 0.01 hrs Peak Efev= 8,249.19 Storage= 120 cf Pfug-Flow detention time= 2.4 min calculated for 0.278 af (100% of inflour) Storage and wetted areas determined by lnegular sec'tions Elevation Surf.Area Perim.lnc.Store Cum.Store Wet.Area ffeet) (sq-ft) (feet) (cubiefeet) (cubiefeetl (sq-ft) 8,248.50 E,252.00 0 0.0575 95.0 Primary OutFlow (Free Discharge)t-1=cltuert # Routinq lnvert Outlet Devices 1 Primary 8,248.50' 18.0" x 102.4' long Culvert RCP, end-section conforming to fill, Ke= 0.500 Outlet Invert= 8,243.50' S= 0.O4EE 7 n= 0.013 Cc= 0.900 I I I I I r Middle Greek Housing Type lt 2Shr Rainfatl=1.70" - 10 Yr Event I Prepared by Peak Civil Engineering, lnc. PageTr HvdroCAD@ 6.00 s/n 002040 @ 1986-2001 Applied Microcomputer Systems 3/19/2003 r Reach 51:51 Inflow = 1.90 ds@ 12.23 hrs, Volume= 0.278afI Outflow = 1.90 cts@ lZ.Zq hrs, Volume= 0.277 at, Atten= 0olo, Lag= 9.2 r,nI Routing by Stor-lnd method, Time Span= 0.0e20.00 hrs, dt= 0.01 hrs I Max. Velocity= 8.0 fps, Min. Travel Time= 0.2 min I Avg. Velocity = 3.2 fps, Avg. Travel Time= 0.5 min r Peak Depth= 0.29' I Capacity at bank full= 23.49 cfsr Inlet Invert= 8,248.50', Outlet Invert= 8,243.50' 18.0" Diameter Pipe n= 0.013 Lengrth= 100.0' Slope= 0.0500 7 r Reach 51.5: 51.5 I lnflow = 1.90 ds@ 12.24 hrs, Volume= 0.277 alI Outflow = 1.90 ds @ 12.24 hrs, Volume= 0.277 af , Atten= 070, Lag= 9.1 r'n I Routing by Stor-lnd method, Time Span= 0.0S20.00 hrs, dt= 0.01 hrs I Max. Velocity= 16.4 fps, Min. Travel Time= 0.1 min Avg. Velocity = 6.7 fps, Avg. Travel Time= 0.3 min I Peak Degh= 0.17'r Capacity at bank full= 65.65 cfs lnlet Invert= 8,243.00', Outlet Invert= 8,203.20'I 18.0" Diameter Pipe n= 0.013 Length= 101.9' Slope= 0.3906 7 I Reach 52:52 I Inflow = 219 ds @ 12.22 hrs, Volurne= 0.304 af Outflow = 2j19 cfs @ '|.2.22 hrs, Volume= 0.304 af, Atten= 0%, Lag= 9.9 r'n I Routing by Stor-lnd method, Time Span= O.OS20.O0 hrs, dt= 0.01 hrs- Max. Velocity= 7.4 fps, Min. Travel Time= 0.0 min Avg. Velocity = 2.9 fps, Avg. Travel 'l1me= 0.1 minII Peak Deoth= 0.34' Capacityat bankfull= 19.91 cfs I Inlet Invert= 8,202.90', Ouflet InverF 8,202.53' I 18.0" Diameter Pipe n= 0.013 Length= 10.3' Slope= 0.0359'/ Subcatchment 55: 55 Runoff = 1.62 cfs @ 11.94 hrs, Volume= 0.074 at I Runoff by SCS TR-20 method, UH=SCS, Time Span= O.OO-2O.OO hrs, dt= 0.01 hrsr Type ll24-hr Rainfall=1.70" I I Middle Crcek Housing Type ll 24hr Rainfallel.70' - 10 Yr Event Prepared by Peak Civil Engineering, Inc. Page 8 HvdroCAD@ 6.00 s/n 002O40 @ 1986-200'l Applied Microcomputer Svstems 3/19/2003 Area (ac) CN DescriPtion 0.633 98 Paved parking & roofs Tc Length Slope Velocity Capacity Description(min) (feet) (ftffi) (ft/sec) (cfs) 3.3 150 0.0300 0.8 SheetFloq n= 0.015 P2= 1,00" Reach 56: 56 I I I I I I I I I I I I T I I I t I I Routing by Stor-lnd method, Time Span= 0.0G20.00 hrs, dt= 0.01 hrs Subcatchment 60: 60 Runoff = O.27 cfs @ 11.93 hrs, Volume=0.O12af Runoff by SCS TR-20 method, UH=SCS, Time Span= 0.0S20.00 hrs, dF 0.01 hrs Type ll 24-hr Rainfall=1.7O' Area (ac) CN Description 0.105 98 Paved roads dcurbs & seurers Tc Length Slope Velocity Description 2.2 63 0.0150 0.5 Sheet Flow, ROADWAY n= 0.015 P2= 1.00" 0.6 43 0.0050 1.2 0.25 Channel Flow CURB Al'tD GUTTER Area= 0.2 sf Perim= 2.7 r= 0.07' n= 0.015 2.8 106 Total lnflow =Outflow = lnfloal =Outflow = Primary = 8,207.77 8,207.97 1.62cfs @ 11.94 hrs, Volume= 1.62cfs @ 11.94 hrs, Volume= 0 0.0250 73.0 0.074 at 0.074 at, Atten= 0%, Lag= 0.0 min 0017 424 Pond 60P:60P 0.27 cfs @ 11.93 hrs, Volume= 0.012 al O.27 ds @ 11.% hrs, Volume= 0.012 af, Atten= 0%, Lag= 9'3 ttn 0.27 ds@ 11.% hrs, Volume= 0.012af. Routing by Stor-lnd method, Time Span= 0.0G20.00 hrs, dt= 0.01 hrs Peak Efev= 8,207.87' Storage= 8 cf Plug-Flow detention time= 1.2 min calculated for 0.012 af (100% of inflow) Stoiage and wetted areas determined by lnegular sections Elevation Surf.Area Perim.lnc.Store Cum.Store Wet.fuea(feet) (sq-ft) (feet) (cubic-feet) (cubic'feet) (sq-ft) 0 17 I I t I I I I I I I I I I I I I I I I Middfe Creek Housing Type il 24hr Rainfatt=1.70" _ t0 yr Event f rq019!^uy P_eak civit Flq'19{lq, In..HvdroCAD@ 6.00 sin 002040 6 tg8o-2601 Rpptied Microcomputer Svstems 3/1'92003 frimary OutFlow (Free Discharge)LfOrifice/Grate L2=Orifice/Grate f Bgutins lnvert Ouflet Devices ] lrinlary 8,207.77, O.tZ.x O.2 Device 1 8,207.27, 2.7S, x 0.33, Vert Orifice/Grate C= 0.600 - Reach 6l: 61 fnflow = 2.57 cfs @ 11.99 hrs, Volume=Outflow = 2.56 cfs @ 11,99 trrs, Votume= Routing by Stor-lnd method, Time Span= O.O&2O.OO hrs, dF 0.01 hrsMax. Velocig= 4.3 fps, Min. Travel time= O.Z min- Avg. Velocity = 1.3 fps, Avg. Travel Time= 2.2 min Peak Depth= 0.55' Capacity at bank tull= 8.79 cfs !!eJ.!ryert= 8,203.00', Oufl et Invert= 8,201.82' 18.0" Diameter Pipe n= 0.013 Length= 16g.7' Slope= 0.0070 T 0.141af 0.141 af, Atten= 0%, Lag= 9.5 r'n Subcatchment 70: 70 Runoff = 0.65 cfs @ 11.98 hrs, Volume=0.025 af runof !y scs rR-20 method, UH=scs, Time span= o.oG20.oo hrs, dt= 0.01 hrsType ll 24-hr Rainfall=1.70" Area (ac) CN Description 0.10.066 98 paved parking & roofs 9.919 74 >75% Grass cover, Good, HSG C0.572 85 Weighted Average k f91Stl Slope V.etocity Capacity Description 0.5 1.9 2.4 1.2 3.6 73 0.0150 140 0.0120 Sheet Flow, ROADWAY n= 0.015 P2= 1.00" 0.38 Channel Flow, CURB AND GUTTER7 r=0.07'n=0.015213 Total Pond 70P:70P Inflow =Outflow =Primary = 0.65 cfs @ 11.95 hrs, 0.65 cfs @ 11.95 hrs, 0.65 cfs @ 11.95 hrs, Volume= Volume= Volume= 0.025 af 0.025 af, Atten= 0%, Laq= 0.1 min 0.025 af Middle Greek Housing Type ll 2tLhr Rainfall=l.70'- 10 Yr Event Prepared by Peak Civil Engineering, Inc. Page 10 HvdroCADO 6.00 s/n 002040 @ 1986-2001 Applied Microcomputer Svstems 3/19/2003 Routing by Stor-lnd method, Time Span= 0,00-20.00 hrs, d1= 0.01 hrs Peak Elev= 8,206.71' Storage= 9 cf Plug-Flour detention time= 0.5 min calculated for 0.025 af (100% of inflow) Storage and wetted areas determined by lnegular sections Elevation Surf.Area Perim.Inc.Store Cum.Store Wet.Area(feet) (sq-ft) (feet) (cubic-feet) (cubic-feet) (sq-ft) 8,206.53 8,206.73 0 0.0145 55.0 0 10 0 10 0 241 lrimary OutFlow (Free Discharge) L1=Orifice/Grate L2=orifice/Grate # Routinq Invert Outlet Devices 1 Primary 8,206.53' 0.12'x0.55'Hotiz.Orifice/GrateX20.00 C=0.6002 Device 1 E,206.53' 2.75'x 0.31i'Vert Orifice/Grate C= 0.600 I t I I I t I I I I I t I I t I I I I lnflor =Outflont = Reach 71271 4.91 cfs @ 11.97 hrs, Volume= 0.470d1 4.91 cfs @ '11.97 hrs, Volurne= 0.470 at, Atten= 006, Lag= 9.2 ttn Routing by Stor-lnd method, Time Span= 0.0e20.00 hrs, dt= 0.01 hrs Max. Velocity= 5.9 frs, Min. Travel Time= 0.2 min Avg. Veloci$ = 2.1 fps, Avg. Travel Time= 0.7 min Peak Depth= 0,72' Capacity at bank full= 10.53 cfs fnfet fnvert= 8,201.72', Outlet Invert= 8,200.89' 18.0" Diameter Pipe n= 0.013 Length= 82.d Slope= 0.0100 7 Subcatchment 80: 80 Runoff = 0.34 ds@ 12.04 hrs, Volume=0,023 af Runoff by SCS TR-20 method, UH=SCS, Time Span= 0.0G20.00 hrs, dt= 0.01 hrs Type ll 24-hr Rainfall=1.70" Area (ac) GN Description 11M 73 Woods, Fair, HSG C 0.535 74 >75% Grass cover, Good, HSG C 't.639 73 Weighted Average I I t I I I I I I I I I I I I t I I t Middle Creek Housing Type Il 24hr Rainfall=1.70" - 10 Yr Event Prgplred by Peak Civil Engineering, lnc. Page 11 HvdroCAD@ 6.00 s/n 002040 @ 1986-2001 Apptied Microcomputer Svstems 3/19/2003 Tc Length Slope Velocity Capacity Description cfs Pond 80P:80P 7.0 50 0.3500 0.1 2.1 430 0.4850 3.5 lnflow = 1.23cfs@ 11.95hrs,Volume= Outflow = 1.22cfs@ 11.96hrs, Volume=Primary = 1.22 cfs @ 11.96 hrs, Volume= Sheet Flou WOODS Woods: Light underbrush n= 0.400 P2= 1.00" Shallow Concentrated Floq WOODS/LANDSCAPE 0.066 af 0.066 af, Atten= 0%, Lag= 9.3 r'n 0.066 af Routing by Stor-lnd method, Time Span= 0.0G20.00 hrs, dt= 0.01 hrs Peak Elev= 8,205.65' Storage= 36 cf Plug-Flow detention time= 1.1 min calculated for 0.066 af (100o/o of inflow) Storage and wetted areas determined by lnegular sections Elevation Surf.Area Perim.Inc.Store Cum.Store Wet.Area(feet) (sq-ft) (feet) (cubic-feet) (cubic-feet) (sq-ft) 8,205.38 8.205.91 lnflow =Outflow = lnflow =Outflow = 0 0.0400 75.0 0 71 0071 48 lrimary OutFlow (Free Discharge)L1=Orifice/Grate L2=Orifice/Grate # RoLrtinq lnvert Outlet Devices1 Primary 8,205.38' 0.12'x 0.55 Horiz. Orifice/GrateX 20.00 C= 0.6002 Device 1 8,205.38' 2.75'x 0.33'Verl Orifice/Grate C= 0.600 Reach 81:81 0.34 cfs @ 12.04 hrs, Volume= 0.023af 0.34 cfs @ 12.U hrs, Volume= 0.023 at Atten= 0%, Lag= 0.0 min Routing by Stor-lnd method, Time Span= 0.0()-20.00 hrs, dt= 0.01 hrs Reach 82:82 6.11 cfs @ 11.97 hrs, Volume= 0.536 af 6.11 cfs @ 11.97 hrs, Volume= 0.536 af, Atten= 0%, Lag= 9.9 r'n Routing by Stor-lnd method, Time Span= 0.00-2O.OO hrs, dt= 0.01 hrs Max. Velocity= 8.0 fps, Min. Travel Time= 0.0 min Avg. Velocity =2.7 fps, Avg. Travel Time= 0.1 min Middle Crcek Housing Type ll 2tl-hr Rainfalbl.T0' - 10 Yr Event frqOqre_d_by Peak Civil Engineering, Inc. page 12 HvdroCADD 6.00 s/n 002(X0 @ 1986-2001 Applied Microcomputer Svstems 3/19p003 Peak Depth= 0.67' Capacity at bank full= 14.86 cfs lnlet Invert= 8,200.79', Outlet lnvert= 8,200.51' 18.0" Diameter Pipe n= 0.013 Length= 14.0 Slope= 0.0200 7 Reach 83: 83 I I I I I I I I I I I I t I I I I I t fnflor = 6.11 ds@ 1'1.97 hrs, Volume= Ontflow = 6.07 cfs @ 11.98 hrs, Volume= 0.536 af 0.535 al Atten= 1%, Lag= 0.6 min Routing by Stor-lnd method, Time Span= 0.0S20.00 hrs, dt= 0.01 hrs Max. Velocity= 8.5 fps, Min. TravelTime= 0.8 min Avg, Velocity = 2.9 fps, Avg. Travel Time= 2.2 min Peak Depth= 0.84' Capacity at bank full= 16.17 cfs lnlet Invert= 8,199.40', Outlet Invert= 8,190.'t0' 18.0" Diameter Pipe n= 0.013 Length= 392.7' SlopE= O.O237 'f Subcatchment 85: 85 Runoff = 1.10 cfs @ 11.94 hrs, Volume=0.O43 af Runoff by SCS TR-20 method, UH=SCS, Time Span= 0.0S20.00 hrs, dt= 0.01 hrs Type ll 24-hr Rainfall=1.70" ac) CN O.47 98 Paved parking & roofs0.217 74 >75%Grasscover, Good. HSGC 0.664 90 Weighted Average Tc Length Slope Velocity Capacig Description 2.4 92 0.0250 0.6 ShetFlor, PARKING n= 0.015 P2= 1.00"1.0 245 0.0570 4.2 0.83 Ghannel Flow CURBAI,|D GUTTER Area= 0.2 sf Perim= 2.7' r 0.07, n- 0.0153.4 337 Total Subcatchment 90: 90 Runoff = 0.30 cfs @ 11.93 hrs, Volume= 0.012 af Runoff by SCS TR-20 method, UH=SCS, Time Span= 0.0s'20,00 hrs, dt= 0.01 hrs Type ll 2tt-hr Rainfall=1.70" Middfe Grcek Housing Type ll 24hr Rainfall=1.70' - 10 Yr Event Prepared by Peak Civil Engineering, Inc. Page 13 HvdroCAD@ 6.00 s/n 002040 @ 1986-2001 Applied Microcomputer Svstems V19/2003 Area (ac) CN Description 0.337 70 Woods, Good, HSG C0.276 74 >75% Grass cover, Good, HSG C0.078 98 Paved parkinq & roofs 0.691 75 Weighted Average Tc Length Slope Capacity Description cfs0.6 100 0.4390 0,5360 0.1895 2.6 3.7 Sheet Floq WOODS Smooth surfaces n= 0.011 P2= 1.00" Shallow Goncentratrad Flow WOODS Woodland Kv= 5.0 fps Channel Flow GRASS DITCH 0.9 0.1 190 190 31.8 1.016.37 I I I I t I I I I I t I I I I I I I I 1.6 480 Total Pond 90P:90P lnflow =Outflow =Primary = 8,245.00 8,248.50 Routing by Stor-lnd method, Time Span= 0.0G20.00 hrs, dt= 0.01 hrs Peak Elev= 8,245.26' Storage= 39 cf Plug-Flow detention time= 7.8 min calculated for 0.012 af (99% of inflow) Storage and wetted areas determined by lnegular sections Elevation Surf.Area Perim.Inc.Store Cum.Store Wet.Area(feet) (sq-ft) (feet) (cubic-feet) (cubic-feet) (sq-ft) 0.30 cfs @ 11.93 hrs, Volume= 0.28 cfs @ 11.96 hrs, Volume= 0.28 cft @ 11.96 hrs, Volume= 0 0.0460 80.0 537 O.O12af 0.012af , Atten= 9%, Lag= 1.5 min 0.012af 00537 528 Primary OutFlow (Free Discharge)L1=cllvert 1 Primary 8,245.00', Routing by Stor-lnd method, Time Span= 0.0G20.00 hrs, dt= 0.01 hrs Max. Velocity= 4.8 fps, Min. Travel Time= 0.4 min Avg. Velocity = 1.9 fps, Avg. TravelTime= 0.9 min 12.0" x 106.5' long Culvert RCP, end-section conforming to fill, Ke= 0.500 Outlet Invert= 8,239.50' S= 0.0516'/ n= 0.013 Cc= 0.900 lnflow =Outflow = Reach 91: 9l 0.28 cfs @ 11.96 hrs, Volume= 0.012af 0.27cfs @ 11.96 hrs, Volume= 0.012 af, Atten= 0%, Lag= g.3 r'n Middle Greek Housing Prepared by Peak Civil Engineering, Inc. Type ll2Shr Rainfall=l.70'- 10Yr Event Page 14 HvdroCAD@ 6.00 s/n 002040 @ 1986-2001 Applied Microcomputer Svstems 3/1912003 Peak Depth= 0.13 Capacity at bank full= 8.10 cfs Inlet Invert= 8,245.00', Outlet Invert= 8,239.50' 12.0" Diameter Pipe n= 0.013 Length= 106.5' Slope= 0.0516'/ Subcatchment 100: 100 Runoff = 0.76 cfs @ 11.93 hrs, Volume=0.031 af Runoff by SCS TR-20 method, UH=SCS, Time Span= 0.0G20.00 hrs, d[= 0.01 hrs Type ll 24-hr Rainfall=1.70" Area (ac) CN Description 0.W 74 >75% Grass cover, Good, HSG C 0.289 98 Paved parkinE & roofs 0.333 95 Weighted Average Tc Length Slope Velocity Capac'lty Description(min) (feet) (ffi) (fUsec) (cfs) 2.3 109 0.0367 0.4 90 0.0440 0.E 3.7 SheetFlow, PARKING n= 0.015 P2= 1.00" 0.73 Ghannel Flow, GURBAIID GUTTER Area= 0.2 sf Perim= 2.7 e 0.07 n= 0.015 2.7 199 Total 0 10 0 10 0 199 I I I I t I I t I I I t I I I I I I I Pond 100P:100P lnflor =Outflow =Primary = 8,242.70 8,243.00 Routing by Stor-lnd method, Time Span= 0.0S20.00 hrs, dt= 0.01 hrs Peak Elev= 8,242.71' Storage= 0 cf Plug-Flow detention time= 0.0 min calculated for 0.03'l af (100% of inflorv) Storage and wetted areas determined by lnegular sections Elevation Surf.Area Perim.Inc,Store Cum.Store Wet.Area(feetl (sq-ft) (feet) (cubic-feet) (cubiefeetl (s+ft) 0.76 cfs @ 11.93 hrs, Volume= 0.76 cfs @ 11.93 hrs, Volume= 0.76 cfs @ 11.93 hrs, Volume= 0 0.0100 50.0 0.031 af 0.031 al Atten= 0%, Lag= 9.9 ttn 0.031 af frimary OutFlor (Free Discharge) F1=Orifice/GrateL2=Orifice/Grate # Routinq lnvert Outlet Devices 1 Primary 8,242.70' 0.12'x0.55'Horiz.Orifice/GrateX20.00 C=0.600 2 Primary 8,242.70' 2.75'x 0.33 Vert Orifice/Grate C= 0.600 I I I I I I I I I I I I I I I I I I I HvdroCAD@ 6.00 s/n 002040 @ 1986-2001 Apptied Microcomputer Svstems 3/1g/2003 Reach 101: 101 Middle Greek Housing Prepared by Peak Civil Engineering, Inc. Inflour = 1.00 cfs @ 11.94 hrs, Volume= Outflow = 1.00 cfs @ 11.95 hrs, Volume= Type ll 24-hr Rainfall=1.70'- 10 Yr Event Page 15 0.043 af 0.043 al Atten= 17o, Lag= 9.4 t'n Routing by Stor-lnd method, Time Span= 0.0S20.00 hrs, dt= 0.01 hrs Max. Velocity= 7.1 fps, Min. TravelTime= 0.6 min Avg. Velocity = 2.1 fps, Avg. Travel Time= 2.0 min Peak Depth= 0.24' Capacity at bank full= 8.21 cfs lnlet Invert= 8,239.00', Outlet Invert= 8,225.50' 1 2.0" Diameter Pipe n= 0.01 3 Length = 254.4' Slope= 0.0531 7 Subcatchment {{0: 110 Runoff = 0,78 cfs @ 11.93 hrs, Volume=0.034 af Runoff by SCS TR-20 method, UH=SCS, Time Span= 0.0G20.00 hrs, dt= 0.01 hrs Type ll 24-hr Rainfall=1.70" Area (ac) CN Description 0.015 74 >75% Grass cover, Good, HSG C0.296 98 Paved parkins & roofs 0.31 1 97 Weighted Average Tc Length Slope Velocity Capacity Description(min) (feet) (ffi) (fUsec) (cfs) 1.8 95 0.0520 0.9 0.9 ?20 0.0500 3.9 Sheet Flou PARKING n= 0.015 P2= 1.00" O.78 Ghannel Floq CURB AtlD GUTTER 2.7 315 Total Nea=0.2sf Perim= Pond 110P: 110P lnflow =Outflow = Primary = 8,229.50 8,229.80 Routing by Stor-lnd method, Time Span= 0.0G20.00 hrs, dt= 0.0.1 hrs Peak Elev= 8,229.70' Storage= 7 cf Plug-Flow detention time= 0.3 min calculated for 0.034 at (100o/o of inflow) Storage and wetted areas determined by lrregular sections Elevation Surf.Area Perim.Inc.Store Cum.Store Wet.Area(feet) (sq-ft) (feet) (cubic-feet) (cubic-feet) (sq-ft) 0.78 cfs @ 11.93 hrs, Volume= 0.78 cfs @ 11.93 hrs, Volume= 0.78 cfs @ 11.93 hrs, Volume= 0 0.0100 50.0 0.034 af 0.034 af, Atten= 0%, Lag= 0.1 min 0.034 af 0 10 0 10 199 HvdroCAD@ 6.00 s/n 002040 O 1986-2001 Applied Microcomputer Svstems y1gl2003 frlmary OutFlow (Free Discharge)L'l=OrificdGrate L2=orifice/Grate # Routinq Invert Outlet Devices 1 Primary 8,229.50' 0.12'x0.55'HorizOrifice/GratreX20.00 C=0.6002 Device 1 8,229.50' 2.75'x 0.33 Vert Orifice/Grate C= 0.600 Reach 111:.111 Middle Greek Housing Prepared by Peak Civil Engineering, Inc. Type ll 2$hr Rainfall=l .7A' - 10 Yr Event Page 16 0.077 al 0.077 af , Atten= 07o, Lag= 9.1 r'n I I I I I I I t I I I I I I I I I I I lnflow =Outflow = 1.76 cfs @ 11.94hrs, Volume= 1.76 cfs @ 11.94hrs, Volume= Routing by Stor-lnd method, Time Span= 0.0G20.00 hrs, dt= 0.01 hrs Max. Velocity= 10.6 fps, Min. Travel Time= 0.1 min Avg. Velocity = 3.0 fps, Avg. Travel Time= 0.4 min Peak Depth= 0.26' Capacity at bank full= 11.50 cfs fnlet fnvert= E,224.33', Outlet Invert= 8,216.00' 12.0" Diameter Pipe n= 0.013 Length= 80.0' Slope=0.1041 'f Middle Creek Housing Prepared by Peak Civil Engineering, Inc. Type ll 24hr Rainfall=1.70" - 10 Yr Event Page 17 @ 1986-2001 Reach 11:11 Hydrograph Plot 0.4 0. nl 0.'l 7I910 11 Time (houF) 12 13 14 15 16 17 lE 19 20 Reach 212 21 Hydrognph Plot 6o olt 12 13 14 15 16 17 18 19 20 Middle Creek Housing Prepared by Peak CivilEngineering, Inc. Type ll 24hr Rainfall=l.70'- 10 Yr Event Page 18 HydroCAD@ 6.00 s/n 002040 @ '1986-2001 Applied Microcomouter Svstems 3/19/2003 Reach 31:31 Hydrograph Plot Reach 41= 41 Hydrograph Plot 5 o ;ott Time (houE) Middle Crcek Housing Prepared by Peak Civil Engineering, Inc. Type ll 24-hr Rainfall=l.70'- 10 Yr Event Page 19 HvdroCAD@ 6.00 s/n 002040 @ 1986-2001 Applied Microcomputer Svstems 3/192003 Reach 5{: 51 Hydrograph Plot Reach 5f .5: 51.5 Hydrognph Plot o |, ir C' L Tlmo (hou?s) Tlm€ (hours) HvdroCAD@ 6.00 s/n 002040 @ 1986-2001 Apolied Microcomputer Svstems 3/19/2003 Reach 52= 52 Hydrograph Plot Middle Creek Housing Prepared by Peak Civil Engineering, Inc. Type ll 24hr Rainfall=1.70'- 10 Yr Event Page 20 13 14 15 16 17 18 19 20 I l|. . co 7I910 11 12 Tlme (hours) Reach 56:56 Hydrograph Plot g'lo' 3cttr ) I : : : l I ! : i Time (hours) Middle Creek Housing Prepared by Peak Civil Engi Type ll 24hr Rainfall=1.70'- 10 Yr Event Page2'l I I I I I I I I I I I I T I I I I I I eu ct E Reach 6l: 61 Hydrograph Plot E910 11 12 13 14 15 16 17 18 1920 Tlme (hours) Reach 71:71 2.56 cfs :I ]li ), i Hydrcgnph Plot Middle Greek Housing Prepared by Peak Civil Engineering, Inc. Type ll 24hr Rainfall=l.70'- 10 Yr Event Page22 I I I HvdroCAD@ 6.00 s/n 002040 @ 1986-2001 Applied Microcomputer Svstems 3/1912003 Reach 81:81 Hydrograph Plot 345678910 11 12 13 14 15 16 17 18 1920 Tlme (houEl Reach 82=82 Hydrograph Plot 8910 11 12 Time (hours) o(, ;o II 0.24 0.22 0.2 0.1E 0.16 0.14 0.12 0.1 Reach 83: 83 Hydrograph Plot Middle Greek Housing Prepared by Peak Civil Engineering, Inc. Type ll 24hr Rainfalbl.70'- 10 Yr Event Page 23 HvdroCADD 6.00 s/n 002040 @ 1986-2001 Applied Microcomputer Svstems 3/192003 8910 11 12 nmo (houE) Reach 91: 9l Hydrognph Plot o IJ ; lt Tlme (hours) Middle Creek Housing Prepared by Peak Civil Eng Type ll 24hr Rainfall=l.70' - 10 Yr Event Pqe24 s/n 002040 , Inc. Reach 101: 101 Hydrograph Plot Tlme (hourr) Reach 111= 111 Hydrograph Plot 6 E tl. 2 3 4 5 6 7 8 I 10 11 Tlme (houE) I I I 23456789,10 11 12 13 14 15 16 17.tE 12 13 14 15 16 17 18 \ T I t I I I t a -- ^- r!- rit I Zl-yeartsvent -:#r*r*rDrainage Dara I I I I I I T t I I I ,/ Middle Greek Housing Type Il 24hr Rainfall=l.90'- 25 Yr Event Page 1Prepared by Peak Civil Engineering, Inc. t I I I I I I T T I I I t I I I I I I Subcatchment 10: 10 Runoff = 0.67 cfs @ 11.94 hrs, Volume=0.031 af Runoff by SCS TR-20 method, UH=SCS, Time Span= 0.00-20.00 hrs, dt= 0'01 hrs Type ll 2zl-hr Rainfall=1.90" Area (ac) CN Description 0.233 98 Paved roads Wcurbs & sartrcrs Tc Length Slope Velocity Capacity Description(min) (feet) (fVft) (fUsec) (cfs) 2.2 60 0.0125 0.4 Sheet Flow, SHEEI FLOW- ROAI) n= 0.015 P2= 1.00" 0.9 70 0.0050 1.2 0.25 Channel Flow CURB AND GUTTER Area= 0.2 sf Perim= 2.7' r= 0'07' n= 0'015 3.1 130 Total Pond 10P: 10P lnflow = Outflow =Primary = 8,209.17 8,209.58 lnflorv = Outflow = 0.67 cfs @ 11.94 hrs, Volume= 0.67 c'fs @ 11.%hrs, Volume= 0.67sfs @ 11.94 hrs, Volume= 0.031 af 0.031 al Atten= 0%, Lag= 0.2 min 0.031 af Routing by Stor-lnd method, Time Span= 0.0G20.00 hrs, dt= 0.01 hrs Peak Elev= 8,209.35' Storage= 12 cf Plug-Flovv detention time- 0.7 min calculated for 0.031 af (100% of inflow) Storage and wetted areas determined by lnegular sections Elevation Surf.fuea Perim.lnc.Store Cum.Store Wet.Area(feet) (s+ft) (feet) (cubicjeet) (cubic-feet) (sq-ft) 0 0.0 00 27 frimary OutFlow (Free Discharge) u1=Orifice/Grate t-2=orifice/Grate # Routinq lnvert Outlet Devices 1 Primary 8,209.17' 0.12'x0.55'HorizOrlfice/GrateX20.00 C=0.600 2 Device 1 8,209.17' 2.75'x 0.33' Vert Orifice/Grate C= 0.600 200 77.0 27 Reach 11= 11 0.67cfs @ 11.94 hrs, Volume= 0.031 af 0.66 sfs @ 11.95 hrs, Volume= 0.031 af, Atten= 1%, Lag= 9.6 t'n Middle Greek Housing Type ll 24hr Rainfaltsl.90' - 25 Yr Event Prepared by Peak Civil Engineering, Inc. Page? HvdioCADO 6.00 s/n 002040 @ 1986-2001 Applied Microcomputer Svstems 3/192003 Routing by Stor-lnd method, Time Span= 0.00-20,00 hrs, dt= 0,01 hrs Max. Velocity= 2.6 fps, Min. Travel Time= 0.9 min Avg. Veloci$ = 0,8 fps, Avg. Travel Time= 3.1 min Peak Depth= 0.3CI Capacity at bank tull= 7.4',l ds f nfet lnvert= 8,205.70', Outlet Invert= 8,204.99' 18.0" Diameter Pipe n= 0.013 Len$h= 142.5' Slope= 0.0050 7 Subcatchment 20: 20 Runoff = 0.77 cfs@ 11.%hrs, Volum+0,029 af Runoff by SCS TR-20 method, UH=SCS, Time Span= 0.0G20.00 hrs, dl= 0.01 hrs Type ll 24-hr Rainfall=1.90" Area (ac) CN DescriPtion 0.258 98 Paved roads Wcurbs & sewers 0.193 72 Woods/grass comb., Good, HSG C 0.050 74 >750lo Grass cover, Good. HSG C 0.501 86 Weighted Average Tc Len$h Slope Velocity Capacity Description (min) (feet) (ft/ft) (ft/sec) (cfs) 2.0 120 0.0680 1.0 SheetFloq ROADWAY n= 0.015 P2= 1.00" 1.3 330 0.0550 4.1 0.82 Channel Floq CURB AND GUTTER Area= 0.2 sf Perim= 2.7' r= 0.07' n= 0.015 3.3 450 Total Pond 20P:20P I I I I I T I I t I I I t I I I I I t 0 368 lnflow = 0.77 cfs @ 11.% hrs, Volume= Outflor = 0.77 c{s @ 11.95 hrs, Volume= Primary = 0.77 c{s @ 11.95 hrs, Volume= 0.029 af 0.029 af, Atten= 0%, Lag= 9.3 t'n 0.029 af Routing by Stor-lnd method, Time Span= 0.00-20.00 hrs, dt= 0.01 hrs Peak Elev= 8,209,49' Storage= 19 cf Plug-Flow detention time= 0.9 min calculated for 0.029 af (100% of inflow) Stoiage and wetted areas determined by lnegular sections Elevation Surf.Area Perim.lnc.Store Cum.Store Wet,Area(feet) (sq-ft) (feet) (cubic-feet) (cubic-feet) (sq'ft) E,209.29 8,209.69 290 68.0 39 0 39 0 0.0 frimary OutFlow (Free Discharge) T'-1=orificdcrate L2=Orifice/Grate I I I I I I I I I I I I t I I I I t I Middle Creek Housing Type ll 24-hr Rainfall=l.90'- 25 Yr Event Prepared by Peak Civil Engineering, Inc. Page 3 HvdroCAD@ 6.00 s/n 002040 @'1986-2001 Applied Microcomputer Svstems 3/192003 # Routinq Invert Outlet Devices 1 Primary 8,209.29' 0.12' x 0.55' Horiz Orifice/Grate X 20.00 C= 0.6002 Device 1 8,209.29' 2.75'x 0.33'Vert Orifice/Grate C= 0.600 lnflow =Outflow = Reach 21:21 1.43 cfs @ 11.95 hrs, Volume= 0.060 af 1.39 c{s @ 11.96 hrs, Volume= 0.060 al Atten= 3%, Lag= 9.9 r'n Routing by Stor-lnd method, Time Span= 0.00-20.00 hrs, dt= 0.01 hrs Max. Velocity= 3.2 fps, Min. Travel Time= 1.4 min Avg. Velocity = 0.9 fps, Avg. Travel Time= 5.0 min Peak Depth= 0.44' Capacity at bank full= 7.42 ds Inlet Invert= 8,204.E9', Outlet Invert= 8,203.55' 18.0" Diameter Pipe n= 0.013 Lengrth= 268.5' Slope= 0.0050'/ Subcatchment 30: 30 Runoff =1.69cfs @ 12.04 hrs, Volume=0.092 af Runoff by SCS TR-20 method, UH=SCS, Time Span= 0.0S20.00 hrs, dl= 0.01 hrs Type ll 24-hr Rainfall=1.90" Area (ac) CN Description 0.083 98 Paved parking & roofs0.678 98 Paved roads dcurbs & sewers0.214 74 >75% Grass cover. Good, HSG C 0.975 93 Weighted Average Tc Length Slope Velocity Capacity Description(min) (feet) (ftlft) (fi/sec) (cft) 6.7 40 0.2500 0.1 2.5 120 0.0375 0.8 2.8 210 0.0050 1.2 0.25 SheetFloq LANDSCAPE Woods: Light underbrush n= 0.400 P2= 1.00" Sheet Flow, ASPHALT n= 0.015 P2= 1.00" Channel Floq CURB AND GUTTER Nea= 0.2 sf Perim= 2.7' r= 0.07' n= 0.12.0 370 Total Pond 30P: 30P lnflow = 1.69 cfs @ 12.04 hrs, Volume= 0.092 af Outflow = 1 .69 cts @ 12.04 hrs, Volume= 0.092 af, Atten= 0%, Lag= 9.2 r'n Primary = 1.69 ds@ 12.04 hrs, Volume= 0.092 af Routing by Stor-lnd method, Time Span= 0.00.20.00 hrs, dt= 0.01 hrs Middle Creek Housing Type ll ZShr Rainfall=1.90" ' 25 Yr Event Prepared by Peak Givil Engineering, lnc. Page 4 HvdioCAD@ 6.00 s/n 002040 G) 1986-2001 Applied Microcomputer Svstems 3/19/2003 Peak Elev= 8,208.32' Storage= 33 cf PlugrFlow detention time= 0.7 min calculated for 0.092 af (100% of inflow) Storage and wetted areas determined by lnegular sestions Elevation Surf.Area Perim.lnc.Store Cum.Store Wet.Area(feet) (sq-ft) (feet) (cubic-feet) (cubic-feet) (sq-ft) I I I I t I I I I I I t t I I I I I I 8,207.99 8,20E.50 lnflow =Outflorr = 0 0.0300 65.0 0051 337 0 51 frirnary OutFlow (Free Discharge) T-1=orificey'Grate L2=orifice/Grate # RoutinE lnvert Outlet Devices 1 Primary E,207.99' 0.12' x 0.55' Horlz. Orifice/Grate X 20.00 C= 0.600 2 Device 1 8,207.99' 2.75'x 0.33'Vert Orlftce/Grate C= 0.600 Reach 3{:31 2.79 cfs @ 11.99 hrs, Volume= 0.152af 2.79 ds @ 11.99 hrs, Volume= 0.152a1, Atten= 0%, Lag= 9.2 ttn Routing by Stor-lnd method, Time Span= 0.0S20.00 hrs, dt= 0.01 hrs Max. Velocity= 3.9 fps, Min. Travel Time= 0.3 min Avg. Velocity = 1.1 fps, Avg. TravelTime= 1.0 min Peak Depth= 0.64' Capacity at bank full= 7.44 ds Inlet Invert= 8,203.45', Outlet Invert= 8,203.10' 18.O'Diameter Pipe n= 0,013 Length= 69.7' Slope= 0.0050 ? Subcatchment 40: 40 Runoff = 0.51 cE @ 12.11hrs, Volume= 0.03 af Runoff by SCS TR-20 method, UH=SCS, Tinc Span= 0.0S20.00 hrs, dt= 0'01 hrs Type ll 24-hr Rainfall=1.90" Area (ac) GN DescriPtion 0.272 98 Paved Parking & roofs 0.506 74 >75% Grass cover, Good. HSG C 0178 82 Weighied Average I I I I Middle Creek Housing Type ll 24-hr Rainfall=1.90'- 25 Yr Event I Prepared by Peak Civil Engineering, lnc. Page 5 - HydroCAD@ 6.00 Vn 002040 @ 1986-2001 Applied Microcomputer Svstems 3/19/2003 I Tc Length Slope Velocity Capacity DescriptionI (min) (feet) (ft/ft) (fUsec) (cfs) 17.4 125 0.0320 0.1 Sheet Floq LANDSCAPE Grass: Short n= 0.150 P2= 1.00"0.1 85 0.4710 10.3 ShallowConcentnted Floq LATIDSCAPE Grassed Waterway Kv= 15.0 fps0.2 36 0.0100 3.1 6.24 ChannelFlow, GRASS DITGH Area= 2.0 sf Perim= 4.0' r= 0.50' n= 0.030 17.7 246 Total I Pond40P:40P r Inflow = 0.51 cfs @ 12.11 hrs, Volume= 0.034 af I Outflow = 0.51 cfs @ 12.11 hrs, Volume= 0.034 af, Atten= 0%, Lag= 9.9 t,nr Primary = 0.51 ds @ 12.11hrs, Volume= 0.034 af I Routing by Stor-lnd method, Time Span= O.0O-20.00 hrs, dt= 0.01 hrsI Peak Elev= 8,206.€1' Storage= 1 cf I Plug-Flou detention time= 0.0 min calculated for 0.034 al ('100o/o of inflow) I Storage and wetted areas determined by lnegular sections Elevation Surf.Area Perim. Inc.Store Cum.Store Wet.Area I (feet) (sq-ft) (feet) (cubic-feet) (cubic-feet) (sq-ft) -8,206.8000.0000_ 8,20E.00 555 250.0 222 222 4,976 t frimary OutFloyn (Free Discharge)L1=Orifice/Grate I # Routing lnvert Outlet DevicesI1 Primary 8,206.80' 0.55'x0.12'HodzOrifice/GnEX24.N C=0.600 r Reach 41241 I Inflow = 0.51 ds @ 12.11hrs, Volume= 0.034 af I Outflow = 0.51 cfs@ 12.12hrs, Volume= 0.034af, Atten=0or6, Lag=O.2r'n Routing by Stor-lnd method, Time Span= 0.0G20,00 hrs, dt= 0.01 hrs I Max. Vltotity= 3.1 fps, Min. TravelTime= 0.3 mint Avg.Velocity=1.3fps, Avg.TravelTime=0.6min I Peak Depth= 0.22' I Capacity at bank full= 10.57 cfs Inlet Invert= 8,203.80', Outlet Invert= 8,203.33' - 18.0" Diameter Pipe n= 0.013 Length=.d$.{' $leps= 0.0101 '/ I I I Middle Crcek Housing Type ll 24hr Rainfall=l.90' - 25 Yr Event Prepared by Peak Civil Engineering, Inc. Page 6 HvdroCADD 6.00 s/n 002040 @'1986-2001 Applied Microcomputer Svstems 3/19/2003 Subcatchment 50: 50 Runoff = 2.87 ds @ 12.22 hrs, Volume= 0.291 af Runoff by SCS TR-20 method, UH=SCS, Time Span= 0.0G20.00 hrs, dF 0.01 hrs Type ll 24-hr Rainfall=1.90" Area (ac) CN Description 0.280 74 >75% Grass cover, Good, HSG C 14,516 73 Woods, Fair, HSG C 14.796 73 Weighted Average Tc Length Slope Velocity Capacity Description(min) (fee0 (ft/ft) (fUsec) (cfs) 18.3 3.9 0.3 125 0.2000 2,085 0.3000 275 0.1090 0.1 8.8 16.0 SheetFloqWOODS Woods: Light underbrush n= 0.400 P2= 1.00" Shallow Concentrated FloU WOODS Unpaved Kv= 16.1 fps 256.U Channel Flow GRITSS DITGH Area= 16.0 sf Perim= 16.5' r= 0.97' n= 0.030 22.5 2,485 Total Pond 50P:50P lnflow = 3.06 ds @ 12.21 hrs, Volume= 0.375 al Outffour = 3.06 ds @ 12.22 hrs, Volume= 0.374 al, Atten= 0%, Lag= 9.5 r'n Primary = 3.06ds@ 12.22hrs, Volume= 0.374at Routing by Stor-lnd method, Tirne Span= 0.0G20.00 hrs, dt= 0.01 hrs Peak Elev= 8,249.32' Storage= 157 cf Pfug-Ffow detention time= 2.1 min calculated for 0.374 af (100% of inflow) Storage and wetted areas determined by lrregular sestions Elevation Surf.Area Perim.Inc.Store Cum.Store Wet.Area(feet) (sq-ft) (feet) (cubic-feet) (cubic-feet) (s+ft) I t I I I I T I I I I I I t I I t I t 8,248.50 8,252.00 0 0.0575 95.0 00671 737 0 671 Primary OutFlow (Free Discharge) L1=cirlvert # Routinq lnvert Outlet Devices 1 Primary 8,248.50' 18.0" x 102.4 long Culvert RCP, end-section conforming to fill, Ke= 0.500 Outlet Invert= 8,243.50' S= 0.0488 7 n= 0.013 Cc= 0.900 I r Middle Creek Housing Type ll 2*hr RainfalPl.go" - 25 Yr Event I Prepared by Peak Civil Engineering, Inc. page 7r HvdroCAD@ 6.00 s/n 002040 @ 1986-2001 Applied Microcomputer Svstems 3/19/2003 r Reach 5{: 51 Inflow = 3.06 cfs @ 12.22 hrs, Volume= 0.374 afI Outflow = 3.06 cfs@ 12.22hrs, Volume= 0.374af, Atten=0%, Lag=9.1 r'nI Routing by Stor-lnd method, Time Span= 0.0G20.00 hrs, dt= 0.01 hrs I Max. Velocity= 9.2 fps, Min. Travel Time= 0.2 min t Avg. Velocity = 3.4 fps, Avg. TravelTime= 0.5 min Peak Depth= 0.37' I Capacity at bank full= 23.49 cfsI lnlet Invert= 8,248.50', Outlet lnvert= 8,243.50' 18.0" Diameter Pipe n= 0.013 Length= 100.0' Slops= 0.0500 T I Reach 51.5: 51.5 I Inflow = 3.06 ds @ 12.22 hrs, Volume= 0.374 at I Outflow = 3.06 cfs@ 12.22 hrs, Volume= 0.374af, Af,ten= 0%, Lag= 9.1 r'n I Routing by Stor-lnd method, Time Span= 0.0S20.00 hrs, dt= 0.01 hrs I Max. Velocity= 19.0 fps, Min. TravelTime= 0.1 minr Avg. Velocity = 7.1 fps, Avg. Travel Time= 0.2 min I Peak Depth= 0.22'I Capacity at bank full= 65.65 cfs Inlet Invert= 8,243.00', Outlet lnvert= A,203.29I 18.0" Diameter Pipe n= 0.013 Length= 101.9' Slope= 0.3906 T I Reach 52:52 I Inflow = 3.47 ds @ 12.20 hrs, Volume= 0.408 afOutflow = 3.47 cfs@ 12.20 hrs, Volume= 0.40E af, Atten= 0%, Lag= g.g rln I Routing by Stor-lnd method, Time Span= O.OD20.OO hrs, dt= 0.01 hrsr Max. Velocity= 8.5 fps, Min. Travel Time= 0.0 min Avg. Velocity = 3.1 fps, Avg. Travel Time= 0.1 min t Peak Depth= 0.42' Capacity at bank full= 19.91 cfs I Inlet Invert= 8,202.90', Outlet lnvert= 8,202.53, I 18.0" Diameter Pipe n= 0.013 Length= 10.3' Slope= 0.0359 T Subcatchment 55: 55 - Runoff = 1.82cfs @ 11.94 hrs, Volume= 0.084 af I Runoff by SCS TR-20 method, UH=SCS, Time Span= O.OG2O.00 hrs, dt= 0.01 hrsr Type ll 24-hr Rainfall=1.90" I I Middle Creek Housing Type ll 24-hr Rainfall=1.90" - 25 Yr Event Page 8Prepared by Peak Civil Engineering,Inc. s/n Area (ac) CN Description 0.633 98 Paved parking & roofs Tc Length Slope Velocity Capacity Descdption(min) (feet) (ftfi) (fl/sec) (cfs) 3.3 150 0.0300 0.8 Sheet FloW n= 0.015 P2= 1.00" Reach 56: 55 Inflortr =Outflow = 1.82cfs @ 11.94 hrs, Volume= 1.82cfs @ 11.94 hrs, Volume= 0.0&4 af 0.0&4 af, Atten= 0%, Lag= 9.9 r'n Routing by Stor-lnd method, Time Span= 0.0G20.00 hrs, dt= 0.01 hrs Subcatchment 60: 60 Runoff = 0.31 cfs @ 11.93 hrs, Volume=0.014 af Runoff by SCS TR-20 method, UH=SCS, Tirne Span= 0.0G20.00 hrs, dt= 0.01 hrs Type ll 2#hr Rainfiall=1.90" Area (ac) CN Description Tc Length Slope Veloci$ Capacity Description(min) (feet) (ftfft) (fl/sec) (cfs) 2.2 63 0.0150 0.5 SheetFloq ROADWAY n= 0.015 P2= 1.fi)"0.6 43 0.0050 1.2 0.25 Channel Flow, CURBAI{D GUTTER Area= 0.2 sf Perim= 2.7' r= 0.07 n= 0.0152.8 106 Total Pond 60P:60P I I t I I t I I I I I I I I t I I I I 0.105 98 Paved roads Wcurbs & seurers Inflottl =Outflow =Primary = 8,207.77 8,207.97 Routing by Stor-lnd method, Time Span= 0.0G20.00 hrs, dt= 0.01 hrs Peak Elev= 8,207.88' Storage= 9 cf Plug-Flow detention time= 1 .2 min calculated for 0.014 af (10006 of inflow) Storage and wetted areas determined by Inegular sections Elevation Surf.Area Perim.Inc.Store Cum.Store Wet.Area(feet) (sq-ft) (feet) (cubic-feet) (cubic-feet) (sq-ft) 0.31 cfs @ 11.93 hrs, Volume= 0.30cfs @ 11.U hrs, Volume= 0.30cfs @ 11.% hrs, Volume= 0 0.0250 73.0 0.014 af 0.014 al Atten= 0%, Lag= 0.3 min 0.014 af 0 17 0017 424 I r Middle Creek Housing Type ll 24hr Rainfall=1.90" - 25 Yr Event I Prepared by Peak Civil Engineering, Inc. Page 9r HvdroCAD@ 6.00 s/n 002040 @ 1986-2001 Applied Microcomputer Svstems 3/19/2003 I frimary OutFlow (Free Discharge) L1=Orifice/Grate I L2=Orifice/Grate LRSUtino Invert Outlet D I 1 Ptirr'ai 8,20?.?? U1t x0.55' Horiz. Orifice/Grate X 20.00 C= 0.600 I 2 Device 1 A,2O7.77' 2.75' x 0.33' Vert Orifice/Grate C= 0.600 Reach 61: 61 r lnflorrv = 3.01 cfs @ 11.98 hrs, Volume= 0.166 af Outflow = 3.00 cfs @ 11.99 hrs, Volume= 0.166 al Atten= 0%, Lag= 9.5 r'n I Routing by Stor-lnd method, Time Span= 0.0G20.00 hrs, dt= 0.01 hrs Max. Velocity= 4.5 fps, Min. Travel Time= 0.6 min I Avg. Velocity = 1.3 fps, Avg. Travel Time= 2.1 min I Peak Depth= 0.60' r Capacity at bank full= 8.79 cfs I Inlet Invert= 8,203.00', Outlet Invert= 8,20'1.82'r 18.0" Diameter Pipe n= 0.013 Length= 168.7' Slope= 0.0070 7 I Subcatchment 70: 70 Runoff = 0.81 cfs @ 11.95 hrs, Volume= 0.031 af Runoff by SCS TR-20 method, UH=SCS, Time Span= 0.0S20.00 hrs, dF 0.01 hrs Type ll 24-hr Rainfull=1.90" AreaGd CN Description I I I 0.196 98 Paved roadsw/curbs &sewers0.066 98 Paved parking & roofs0.310 74 >75% Grass cover. Good. HSG C 0.572 85 Weighted Average I Tc Length Slope Velocity Capacity DescriptionI (min) (feet) (fU0 (fl/sec) (cfs) 2.4 73 0.0150 0.5 Sheet Flor, ROADWAY n= 0.015 P2= 1.00"I 1.2 140 0.0120 1.9 0.38 Channel Floq CURB Al,lD GUTTER Area= 0.2 sf Perim= 2.7' r= 0.07' n= 0.015r 3.6 213 Total r pond 70p:70p I lnflow = 0.81 cfs@ 11.95hrs, Votume= 0.031 af Outflow = 0.81 cfs @ 11.95 hrs, Volume= 0.031 af, Atten= 0%, Lag= 9.1 r'n r Primary = 0.81 cfs@ 11.95hrs, Volume= 0.031af I t Middle Greek Housing Prepared by Peak Civil Engineering, Inc. Type ll 24hr Rainfall=l.90'- 25 Yr Event Page 10 0 10 0 10 0 241 I I I I I I I I t I I I I I t I I I I HvdroCAD@ 6.00 s/n 002040 @ 1986-2001 Applied Microcomputer Systems 3/1912003 Routing by Stor-lnd method, Time Span= 0.0G20.00 hrs, dt= 0.01 hrs Peak Elev= 8,206.73' Storage= 10 cf Plug-Flow detention time= 0.5 min calculated for 0.031 af (100% of inflow) Storage and wetted areas determined by lnegular sec'tions Elevation Surf.Area Perim.lnc.Store Cum.Store Wet,Area(feetl (sq-ft) (feet) (cubic-feet) (cubiofeet) (sq-ft) frimary OutFlow (Free Discharge) l-1=Orifice/Grate L2=orifice/Grate # Routino lnvert Outlet Devices 1 Primary 8,206.53' 0.1?x0.55'Horlz.On'fice/GrateX20.00 C=0'600 2 Device 1 E,206.53' 2.75'x 0.3i1'Vert OdflcdGrab C= 0.600 8,206.53 8,206.73 lnflow =Outflow = 0 0.0145 55.0 Reach 71=71 5.96 cfs @ 11.97 hrs, Volume= 0.605 af 5.95 cfs @ tt.Sa hrs, Volume= 0.605 af, Atten= 0%, Lag= 0.2 min Routing by Stor-lnd method, Time Span= 0.0G20.00 hrs, d1= 0.01 hrs Max, Velocity= 6.1 fps, Min. Travel Time= 0.2 min Avg. Veloci$ =2.2tps, Avg. TravelTime= 0.6 min Peak Depth= 0.81' Capacity at bank full= 10.53 cfs lnlet fnvert= 8,201.72', Outlet Invert= 8,200.89' 18.0" Diameter Pipe n= 0.013 Lengtlt= E2.6 Slope= 0.01fi)'/ Subcatchment 80: 80 Runoff = 0.56 cfs @ 12.03 hrs, Volume=0.033 af Runoff by SCS TR-20 method, UH=SCS, Time Span= 0.0G20.00 hrs, dt-- 0.01 hrs Type ll 24-hr Rainfall=1.90" Area (ac) CN DescriPtion 1.1U 73 Woods, Fair, HSG C 0.535 74 >75% Grass cover, Good' HSG C 1.639 73 Weighted Average Middle Creek Housing Type ll 24hr Rainfall=1.90" - 25 Yr Event Page 11Prepared by Peak Civil ineering, Inc. 2001 Tc Length Slope Velocity Capacity Description mrn 7.0 50 0.3500 0.1 Sheet Flow WOODS Woods: Light underbrush n= 0.400 P2= 1.00" Shallow Concentrated Floq WOODS/LANDSCAPE2.1 430 0.4850 3.5 Pond 80P:80P Inflow = 1.59 cfs @ 11.96 hrs, Volume=Outflow = 1.59 cfs @ 11.96 hrs, Volume= Primary = 1.59 cfs @ 11.96 hrs, Volume= 0.084 af 0.084 af, Atten= 0%, Lag= 9.3 r'n 0.084 af Routing by Stor-lnd method, Time Span= 0.0G20.00 hrs, dt= 0.01 hrs Peak Elev= 8,205.70' Storage= 43 cf Plug-Ffow detention time= 1.0 min calculated for 0.084 af (100o/o of inflow) Storage and wetted areas determined by lnegular sec{ions Elevation Surf.Area Perim.Inc.Store Cum.Store Wet.Area t I I I I I I I I I t t I I I I I I I 8,205.38 8,205.91 0 400 0.0 75.0 0 71 0 71 0 48 lrimary OutFlow (Free Discharge)L1=Orifice/Grate L2=orifice/Grate 8,205.38' 0.12'x 0.55' Horiz. Orifice/Grate X 20.00 C= 0.600 8,205:38' 275'x 0.33'Vert Orifice/Grate G= 0.600 Reach 81:81 0.56 cfs @ 12.03 hrs, Volume= 0.033 af 0.56 cfs @ 12.03 hrs, Volume= 0.033 af, Atten= 0%, Lag= g.g r'n Routing by Stor-lnd method, Time Span= 0.0G20.00 hrs, dt= 0.01 hrs Primary Device 1 lnflow =Otrtflow = Inflow =Outflow = Reach 82:82 7.52 cfs @ 11.97 hrs, Volume= 0.689 af 7.52 cfs @ 11.97 hrs, Volume= 0.689 af, Atten= 0%, Lag= g.g r'n Routing by Stor-lnd method, Time Span= 0.0tr20.00 hrs, dt= 0.01 hrs Max. Velocity= 8.4 fps, Min. Travel Time= 0.0 min Avg. Velocity = 2.9 fps, Avg. TravelTime= 0.1 min HvdroGAD@6.00 s/n 002040 @ 1986-2001 Applied Microcomputer Svstems 3/192003 Peak Depth= 0.76' Capacity at bank full= 14.86 cfs Inlet Invert= 8,200.79', Outlet Invert= 8,200.51' 18.0" Diameter Pipe n= 0.013 Length= 14.0' Slope= 0.0200'/ Reach 83:83 Middle Greek Housing Prepared by Peak Civil Engineering, lnc. Type ll 24-hr Rainfall=l.90' - 25 Yr Event Page 12 0.689 af 0.688 af, Atten= 1%, Lag= 9.6 rtn I t I I t I I I I I I I I t I I I I I lnflow =Outflor = 7 .52 ds @ 11.97 hrs, Volume= 7.48 cfs @ 11.98 hrs, Volume= Routing by Stor-lnd method, Time Span= 0.0S20.00 hrs, dt= 0.01 hrs Max, Velocity= 9.0 fps, Min, Travel Time= 0.7 min Avg. Velocity = 3.1 fPs, Avg. TravelTime= 2.1 min Peak Depth= 0.72' Capacity at bank full= 16.17 efs lnlet Invert= 8,199.40', Outlet Invert= 8,190.10' 1E.0" Diameter Pipe n= 0.013 Len$h=392.T Slope= 0.0237'l Subcatchment 85: 85 Runoff = 1.31 cfs @ 11.94 hrs, Volume= 0.052 af Runoff by SCS TR-20 method, UH=SCS, Time Span= 0.0G20.00 hrs, dt= 0.01 hrs Type ll 24-hr Rainfall=1.90" Area (ac) CN Descriotion 0.47 98 Paved parking & roofs 0.217 74 >75% Grass cover, Good, HSG C 0.664 90 Weighted Average Tc Length Slope Velocity Capacity Description(min) (feet) (ft/ft) (ft/sec) (cfg) 2.4 92 0.0250 0.6 SheetFlou PARKING n= 0.015 P2= 1.00"1.0 245 0,0570 4.2 0.83 Channel Flow, CURB Al,lD GUTTER Area= 0.2 sf Perim= 2.7' r= 0.07' n= 0.015 3.4 337 Total Subcatchment 90: 90 Runoff = 0.4 cfs @ 11.93 hrs, Volume= 0.017 af Runoff by SCS TR-20 method, UH=SCS, Time Span= 0.0$20.00 hts, dts 0.01 hrs Type ll 24-hr Rainfall=1.90" I I I I I I I I t I I I I I I I I I I Middle Greek Housing Prepared by Peak Civil Engineering, lnc. HydroCAD@6.00 s/n 002040 @ 1986-2001Ao Type ll 24-hr Rainfall=l.90' - 25 Yr Event Page 13 Area (ac) CN Description 0.337 70 Woods, Good, HSG C0.276 74 >75% Grass cover, Good, HSG C 98 0,691 75 Weighted Average 100 0.4390 2.6 190 0.5360 3.7 lnflow = 0.44c.fs@ 11.93hrs, Volume= Outffow = 0.42cfs@ 11.95hrs, Volume= Primary = 0.42cfs@ 11.95hrs, Volume= 0.017 at 0.017 al Atten= 6%, Lag= 1.1 r,n 0.017 af 0.6 0.9 Elevation Surf.Area Perim.Inc.Store Cum.Store Wet.Area Tc Length Slope Velocity Capacity Description(min) (feet) (ffi) (fUsec) (cfs) Sheet Flow, WOODS Smooth surfaces n= 0.011 P2= 1.00" Shallow Concentrated Floq WOODS Woodland Kv= 5.0 frs0.1 190 0.1895 31.8 1,016.37 Channet Flow, GRASS DTTCH Area= 32.0 sf Perim= 17.9' r= 1.79' n= 0.0301.6 480 Total Pond 90P: 90P Routing by Stor-lnd method, Time Span= 0.0G20.00 hrs, dt= 0.01 hrs Peak Elev= 8,245.32' Storage= 49 cf Plug-Flow detention time= 6.6 min calculated for 0.017 af (99% of inflow) Storage and wetted areas determined by Inegular sections 8,245.00 0 0.08,24€..50 460 80.0 E1i1{,9;tr row (Free Discharge) 0 528 0 537 0 537 1 Primary 8,245.00' Routing by Stor-lnd method, Time Span= 0.0S20.00 hrs, dt= 0.01 hrs Max. Velocity= 5.4 fps, Min. Travel Time= 0.3 min Avg. Velocity = 2.1 fps, Avg. Travel Time= 0.8 min !20" x 106.5'long Culvert RCP, end-section conforming to fill, Ke= 0.500 Outlet Invert= 8,239.50' S= 0.0516 7 n= 0.013 Cc= 0.960 Inflow =Outflow = Reach 91:91 0.42 ds @ 1 1 .95 hrs, Volume= 0.017 af 0.41 cfs @ 11.95 hrs, Volume= 0.017 af, Atten= 0%, Lag= 9.2 r'n Middle Greek Housing Prepared by Peak Civil Engineering, Inc. Type ll 24-hr Rainfall=1.90'- 25 Yr Event Page 14 HydroCAD@ 6.00 s/n 002040 @ 1986-2001 Applied Microcomputer Svstems 3/19/2003 Peak Depth= 0.15' Capacity at bank full= 8.10 cfs Inlet Invert= 8,245.00', Outlet lnvert= 8,239.50' 12.0" Diameter Pipe n= 0.013 Length= 106.5' Slope= 0.0516'/ Subcatchment 100: 100 Runoff = 0.87 cfs @ 11.93 hrs, Volume=0.036 af Runoff by SCS TR-20 method, UH=SCS, Time Span= 0.0G20.00 hrs, dt= 0.01 hrs Type ll 24-hr Rainfall=1.90" Area (ac) CN Description O.O44 74 >75% Grass cover, Good, HSG C 0.289 98 Paved parking & roofs 0.333 95 Weighted Average Tc Length Slope Velocity Capaci$ Description(min) (feet) (ffi) (fl/sec) (cfs) 2.3 109 0.0367 0.8 Sheet Floq PARI{NG n= 0.015 P2= 1.@"3.7 0.73 Ghannel Flow CURBAT'ID GUTTER Area= 0.2 sf Perim= 2.7' r= 0.07' n= 0.015 0.4 90 0.0440 2.7 199 Total 0 10 0 10 0 199 I I I t I I I I T I I t t I I I I I I Pond 100P: 100P lnflorv =Outflow =Primary = 8,242.70 8,243.00 Routing by StorJnd method, Time Span= 0.0S20.00 hrs, dtr 0.01 hrs Peak Elev= 8,242.72' Storage= 1 cf Plug-Flor detention time= 0.0 min calculated for 0.036 af (100% of inflow) Storage and wetted areas determined by lrregular sections Elevation Surf.Area Perim.Inc.Store Cum.Store Wet.Area(feet) (sq-ft) (fee0 (cubiofeet) (cubic-feet) (sq-ft) 0.87 cfs @ 11.93 hrs, Volume= 0.87 cfs @ 11.93 hrs, Volume= 0.87 cfs @ 11.93 hrs, Volume= 0 0.0100 50.0 0.036 af 0.036 af, Atten= 0%, Lag= g.g rtn 0.036 af frimary OutFlow (Free Discharge) fr1=Orifice/GrateL2=Orifice/Grate # Routing lnvert Outlet Devices 1 Primary 8,242.70' 0.12'x0.55'HoriaOrifice/GrateX20.00 C=0.6002 Primary 8,242.70' 2.75'x 0.33'Vert Orifice/Grate C= 0.600 Middle Creek Housing Prepared by Peak Civil Engineering, lnc. Type ll 24hr Rainfall=l.90" - 25 Yr Event Page 15 I I I I I I I I I I I I I I I I I I I Reachl0l:101 fnflow = 1.27 cfs @ 11.94 hrs, Volume= Outffow = 1.26 cfs @ 11.95 hrs, Volume= 0.053 af 0.053 af, Atten= 1%, Lag= 9.4 t'n Routing by Stor-lnd method, Time Span= 0.0S20.00 hrs, dt= 0.01 hrs Max. Veloci$= 7.6 fps, Min. Travel Time= 0.6 min Avg. Vefocity =2.2fps, Avg. Travel Time= 1.9 min Peak Depth= 0.26' Capacity at bank full= 8.21 cfs lnfet fnvert= 8,239.00', Outlet Invert= 8,225.50' 12.0" DiameterPipe n= 0.013 Length=2il.4' Slope=0'0531 7 Subcatchment 110: 110 Runoff = 0.88 cfs @ 11.93 hrs, Volume=0.038 af Runoff by SCS TR-20 method, UH=SCS, Time Span= 0.00'20.00 hrs, dt= 0.01 hrs Type ll 24-hr Rainfall=1.90" Area (ac) CN Description 0.015 74 >75% Grass cover, Good, HSG C 0.296 98 Paved parking & roofs 0.311 97 Weighted Average Length Slope Velocity DescriptionTc rnD 1.8 0.9 95 0.0520 220 0.0500 0.9 3.9 SheetFlow, PARKING n= 0.015 P2= 1 .00" 0.78 Channel Flow, CURB Al,lD GUTTER 2.7 315 Total Pond 110P:110P 2.7'r-0. 0.038 af 0.038 af, Atten= 0%, Lag= 9.1 .'n 0.03E af Inflow = 0.88 cfs @ 11.93 hrs, Volume= Outflow = 0.88 cfs @ 11.93 hrs, Volume= Primary = 0.88 cfs @ 11.93 hrs, Volume= Routing by Stor-lnd method, Time Span= 0.0G20.00 hrs, dt= 0.01 hrs Peak Efev= 8,229.72' Storage= 7 cf Plug-Flow detention time= 0.3 min calculated for 0.038 af (100% of inflour) Storage and wetted areas determined by lrregular sections Elevation Surf.Area Perim.lnc.Store Cum.Store Wet.Area 8,229.50 8,229.80 0.0 50.0 0 100 0 199 0 10 0 10 Middle Greek Housing Type ll 24hr Rainfall=l.90" - 25 Yr Event Prepared by Peak Civil Engineering, Inc. Page 16 HvdroCADE 6.00 Vn 002040 @ 1986-2001 Applied Microcomputer Svstems 3/19/2003 frimary OutFlow (Free Discharge)L1=OrificdGrate L2=orifice/Grate # Routinq lnvert Outlet Devices 1 Primary 8,229.50' 0.12' x 0.55' Horiz. Orifice/Grate X 20.00 C= 0.6002 Device 1 8,229.50' 2.75'x 0.33'Vert. Orifice/Grate C= 0.600 Reach 111:111 I I t I t t I t I I I T I I I I I I I lnflow = 2.13 cfs @ 11.94 hrs, Volume= Outflow = 2j3 cfs@ 11.94hrs, Volume= 0.091 af 0.091 af, Atten= 0%, Lag= 9.1 r,n Routing by Stor-lnd method, Time Span= 0.0G20.00 hrs, dt= 0,01 hrs Max. Velocity= 11.2 fps, Min. Travel Time= 0.1 min Avg. Velocity = 3.2 fPs, Avg. Travel Time= 0.4 min Peak Depth= 0.29' Capacity at bank full= 11.50 cfs f nlet lnvert= 8,224.33' , Outlet Invert= 8,216.00' 12.0" Diameter Pipe n= 0.013 Length= 80.0' Slope= O.1M1 'f Middle Greek Housing Type ll 24hr Rainfall=l.90' - 25 Yr Event frepared by Peak Civil Engineering, lnc. HvdroCAD@6.00 s/n 002040 @ 1986-2001 Ap Reach 11211 Hydrograph Plot Reach 21= 21 Hydrograph Plot Middle Creek Housing Prepared by Peak Civil Engineering, lnc. Type ll 24hr Rainfall=l.90'- 25 Yr Event Page 18 I I I HydroCAD@ 6.00 s/n 002040 @ 1986-2001 Applied Microcomputer Svstems 3/1912003 Reach 3t: 3l Hydrograph Plot .p IJ e ll. 789'10 11 12 13.t4 nme (houFl Reach 41:41 Hydrograph Plot 8 910 11 12 Tlme (hours) 1S181716 '-. _ t- 0.1 Middle Greek Housing Type Il 24hr Rainfall=l.90'- 25 Yr Event Page 19Prepared by Peak Civil Engineering, Inc. 1 Reach 51: 51 Hydrograph Plot Reach 51.5: 51.5 Hydrograph Plot Middle Creek Housing Prepared by Peak Civil Engineering, Inc. Type ll 2tl-hr Rainfall=l.90'- 25 Yr Event Page 20 HvdroCAD@ 6.00 s/n 002040 @ 1986-2001 Applied Microcomputer Svstems 3/1glZOO3 Reach 56:56 Hydrograph Plot l- lnflo,r Il- Ou$owl"- Reach 522 52 Hydrograph Plot Middle Creek Housing Prepared by Peak Civil Engineering, Inc. Type ll 24hr Rainfalle1.90'- 25 Yr Event Page21 .EI I0tr .00 s/n 002040 @ 1986-2001 Reach 61: 61 Hydrograph Plot o i ) 3 ,i 5 d't"'i-' Time (horrs) Reach 71=71 Hydrograph Plot 6 a,ttt Middle Grcek Housing Prepared by Peak Civil Engineering, Inc. 01234s Type ll 24hr Rainfall=l.90'- 25 Yr Event Page22 I t I HvdroCAD@ 6,00 s/n 002040 @ 't986-2001 Applied Microcomputer Svstems 3/1g2003 Reach 81: 81 Hydrograph Plot 0.1 0.1 0. o Iott I I I I I I I I I I I I I I I I 910 11 12 13 14 15 Tlmo (houE) Reach 82282 Hydrograph Plot 8 910 11 12 Tlme (hou|E) Middle Greek Housing Type ll 24hr Rainfall=I.90' - 25 Yr Event Page 23Prepared by Peak Civil neering, lnc. I I I I I t I I I I T I I I I t I t I Reach 83:83 Hydrograph Plot o() otr Hydrograph Plot Middle Grcek Housing Prepared by Peak Civil E Type ll 2Shr Rainfall=l.90' - 25 Yr Event Page24ineering, Inc. I I IReach 101: 101 Hydrograph Plot 8910 11 12 13 14 Tlme (hour8) Reach 111:111 Hydrograph Plot o |) Ic,f'L1 8 910 11 12 Timo (hours) 1a 14 IE 16 17 18 19 \ I I I I t I I Appendix F I 50-Year Event post-Development Drainage Data I I T I T I I I t I t / t I I I I I T I I I I T I I I I I I I Middfe creek Housing Type ll 2$hr Rainfall=2.20" - 50 Yr Event Prepared by Peak CivilEngineering, lnc. - Page 1 HvdioCAD@ 6.00 sln 0O2O4O 6 1986-2d01 Applied Microcomouter Svstems 3/192003 Subcatchment 10: 10 Runoff = 0.78 cfs @ 11.93 hrs, Volume=0.036 af Runoff by SCS TR-20 method, UH=SCS, Time Span= 0.0G20'00 hrs' dt= 0.01 hrs Type ll 24-hr Rainfall=2.20" Area (ac) CN Description 0.233 98 Paved roads dcurbs & sewers Tc Length Slope Velocity Capacity Description(min) (feet) (fl/ft) (ft/sec) (cfs) 2.2 60 0.0125 0.4 SheetFIoqSHEETFLOW'ROAI) n= 0.015 P2= 1.00" 0.9 70 0.OO5O 1.2 0.25 Channel Floq GURBAND GUTTER 3.1 130 Total Pond 10P: 10P lnflow =Outflow = Primary = 0.78 cfs @ 11.93 hrs, Volume= 0.78cfs @ 11.% hrs, Volume= 0.78cfs @ 11.% hrs, Volume= 0.036 af 0.036 af, Aften= 0%, Lag= 0.2 min 0.036 af Routing by Stor-lnd method, Time Span= 0.0G20.00 hrs, dF 0.01 hrs Peak Elev= 8,209.37 Storage= 13 cf Plug-Flow detention time= 0.7 min calculated for 0.036 af (100% of inflow) Storage and wetted areas determined by Inegular sections Elevation Surf.Arca Perim.lnc.Store Cum.Store Wet.Area E,209.17 8,209.58 lnflow =Outflow = 0 472 0 27 0 27 0 200 0.0 n.0 fdmary OutFlow (Free Discharge) L1=Orifice/Grate L2=orifice/Grate # Routinq lnvert Outlet Devices 1 Primary 8,209J7' 0.12'x 0.55' Horiz Orifice/Grate X 20.fl1 C= 0.600 2 Device 1 8,209.17' 2.75'x 0.33'Vert OrificelGrate C= 0'600 Reach 11:11 0.78 cfs @ 1'1.94 hrs, Volume= 0.036 af 0.77 cfs @ 11.95 hrs, Volume= 0.036 af, Atten= 1%, Lag= 9.6 t'n Middle Creek Housing Prepared by Peak Civil Engineering, lnc. Type ll24hr Rainfall--2.20'- 50 Yr Event Routing by Stor-lnd method, Time Span= 0.@'20.00 hrs, df= 0.01 hrs Max,Velocity= 2.7 tps, Min. Travel Time= 0.9 min Avg. Velocity = 0.8 fps, Avg. Travel Time= 3.0 min Peak Depth= 0.33' Capacity at bank full= 7.41 ds Inlet InverF 8,205.70', Outlet Invert= 8,204.99' 18.0" Diameter Pipe n= 0.013 Lengh= 142.5' Slope= O.OOS0 ? Subcatchment20:2O Runoff = 1.00 cfs @ 11.% hrs, Volume=0.038 af Runoff by SCS TR-20 method, UH=SCS, Time Span= O.OG2O.OO hrs, df= 0.01 hrs Type ll 24-hr Rainfall=2.20" 0.258 0.193 98 Paved roads dcurbs & sevrrers72 Woods/grass comb., Good, HSG C 0.501 Tc Length 86 WeightedAverage t I I I I I I T I t I I I I I I I I I 2.0 1.3 120 330 Velocity 0.0680 1.0 0.0550 4.1 Description SheetFloq ROADWAY n= 0.015 P2= 1.00" 0.82 Channel Floq CURBAttD GUTTER Pond 20P:20P Inflow =Ontflow =Primary = 1.00 cfs @ 11.%hrs, Volume= 0.99 cfs @ 11.95 hrs, Volume= 0.99 cft @ 11.95 hrs, Volume= 0.038 af 3.33311 Atten= 0%, Las= s.3 ',n Routing by Stor-lnd method, Time Span= 0.0G20.00 hrs, dt= 0.01 hrs Peak Efev= 8,209.52' Storage= 23 cf flug-Flqry detention time= 0.9 min calcutated for 0.038 al (100% of inflow) Storage and wetted areas determined by lnegular sections Elevation Surf.Area Perim.Inc.Store Cum.Store Wet.Area(feet) (sq-ft) (feet) (cubicfeet) (cubic-feet) (sq-ft)8,209.2900.00008,209.69 290 68.0 39 39 368 frimary OutFlow (Free Discharge)L1=Orifice/Grate L2=Orifice/Grate t I I I I I I I T I I I I I I I I I t HvdroCAD@ 6.00 s/n 002040 @ 1986-2001 Applied Microcomputer Svstems 3/19/2003 lnvert Outlet Devices 1 Primary 8,209.29' 0.12'x 0.55'Horiz. Orifice/Grate X 20.00 C= 0.6002 Device 1 8.209.29' 2.75'x 0.33'Vert Orifice/Grate C= 0.600 Middle Creek Housing Prepared by Peak Civil Engineering, lnc. lnflow =Outflow = Type ll 24-hr Rainfall=2.20'- 50 Yr Event Page 3 Reach 21= 21 1.77 ds @ 11.95 hrs, Volume= 0.075 af 1.72cls @ 11.96 hrs, Volume= O.O74 af , Atten= 3%, Lag= 9.6 t'n Routing by Stor-lnd method, Time Span= 0.0G20.00 hrs, dt= 0.01 hrs Max. Velocity= 3.4 fps, Min. Travel Time= 1.3 min Avg. Velod$ = 0.9 fps, Avg. Travel Time= 4.8 min Peak Depth= 0.49' Capacity at bank full= 7.42 cfs Inlet Invert= 8,204.89', Outlet Invert= 8,203.55' 18.0" Diameter Pipe n= 0.013 Length= 268.5' Slope= 0.0050 '/ Subcatchment 30: 30 Runoff = 2.06ds@ '12.04hrs, Volume=0.113 af Runoff by SCS TR-20 method, UH=SCS, Time Span= 0.0G20.00 hrs, dt= 0.01 hrs Type ll 24-hr Rainfall=2.20" Area (ac) CN Description 0.083 98 Paved parking & roofs0.678 98 Paved roads Wcurbs & sevrrers0.214 74 >75% Grass cover, Good. HSG C 0.975 93 Weighted Average Tc Length Slope Velocity Capacity Description(min) (feet) (ffi) (11/sec) (cfs) 6.7 40 0.2500 0.1 2.5 120 0.0375 0.8 2.8 210 0.0050 1.2 Sheet Flou T"ANDSCAPE Woods: Light underbrush n= 0.400 P2= 1.00" Sheet Flow, ASPHALT n= 0.015 P2= 1.00" 0.25 Channel Flow CURBAND GUTTER Area= 0.2 sf Perim= 2.7' r= 0.0T n= 0.015 12.O 370 Total Pond 30P: 30P lnflow = 2.06 cfs @ 12.04 hrs, Volume= Outflow = 2.05 cfs @ 12.04 hrs, Volume= Primary = 2.05 cfs@ 12.04 hrs, Volume= 0.113 af 0.113 af, Atten= 0%, Lag= 9.3 t'n 0.113 af Routing by Stor-lnd method, Time Span= 0.00-20.00 hrs, dt= 0.01 hrs Middle Greek Housing Prepared by Peak Civil Engineering, lnc. 00 s/n 002040 @ 1986-2001 Peak Elev= 8,208.39' Storage= 40 cf PlugFlow detention time= 0.7 min calculated for 0.113 af (100% of inflor) Storage and wetted areas determined by lnegular sections Elevation Surf.Area Perim.Inc.Store Cum.Store Wet.Area Type ll 2&hr Rainfall=2.20'- 50 Yr Event Page 4 8,207.99 8,208.50 0 0.0300 65.0 I I I t I I I t I I I I T I I I I t IIt 0 337 0 51 0 51 lrimary OutFlow (Free Discharge)L1=Orificey'Grate L2=Orifice/Grate I Primary 8,207.99' Device 1 8.207.99' 0.12' x 0.55' Horiz. Orifice/Grate X 20,00 C= 0.600 2.75'x 0.33'Vert Odfice/Grate C= 0.600 Reach 3{:31 lnflow = 3.41 cfs @ 1 1 .98 hrs, Volume= 0.1 88 afOutflorv = 3.41 cfs @ 1 1 .99 hrs, Volume= 0.1 88 af, Atten= 0%, Lag= 9.2 .'n Routing by Stor-lnd method, Time Span= 0.0O20.00 hrs, dt= 0.01 hrs Max. Velocity= 4.1 fps, Min. Travel Time- 0.3 min Avg. Velod$ = 1.2 fps, Avg. Travel Time= 1.0 min Peak Depth= 0.71' Capacity at bank full= 7.44 ds Inlet Invert= 8,203.45', Outlet Invert= 8,203.10' 18.0" Diameter Pipe n= 0.013 Length= 69.7' Slope= 0.0050 7 Subcatchment 40: 40 Runoff = 0.70 ds @ 12.11 hrs, Volume=0.046 af Runoff by SCS TR-20 method, UH=SCS, Time Span= 0.00-20.00 hrs, dt= 0.01 hrs Type ll 24hr Rainfall=2.20" Area o.272 Paved parking & roofs 0. o.778 >75% Grass Weighted Average I I I I I Middle Creek Housing Type ll 24hr Rainfall=2.20'- 50 Yr Event I Prepared by Peak Civil Engineering, Inc, Page 5 HvdroCAD@6.00 s/n 002040 @ 1986-2001 Applied MicrocomputerSvstems 3/19/2003 Tc Length Slope Velocity Capacity Description(min) (feet) (ffi) (fUsec) (cfs) 17.4 125 0.0320 0.1 Sheet Floq LANDSCAPE Grass: Short n= 0.150 P2= 1.00"0.1 85 0.4710 10.3 Shallowconcentrated Floq IANDSCAPE Grassed Waterway Kv= 15.0 fpso' tu o otoo " u'o ll!?r!lJl?T"?,Hfo?'ltluo, n= o o.o17.7 ?46 Total r Pond 40P: z${lP I Inflow = 0.70 ds@ 12.11hrs, Volume= 0.046 af I Outflow = 0.70 ds @ '12.11 hrs, Volume= 0.046 af, Aften= 0%, Lag= 9.9 r'n Primary = 0.70 ds @ 12.11 hrs, Volume= 0.046 af I Routing by Stor-lnd method, Time Span= O.O0-20.00 hrs, dt= 0.01 hrsI Peak Elev= 8,206.81' Storage= 2 cf I Plug-Flow detention time= 0.0 min calculated for 0.046 af (1007o of inflow) I Storage and wetted areas determined by lrregular sections r Elevation Surf.Area Perim. Inc.Slore Cum.Store WetArea I (feet) (sq-ft) (feet) (cubiofeet) (cubic-feet) (sq-ft) 8,206.8000.0000 I 8,208.00 555 250.0 222 222 4'976 I frimary OutFtow (Free Discharge)L1=Orifice/Grate I # Routinq lnvert Outlet Devices1 Primary 8,206.80' 0.55'x 0.1? Horiz. Orifice/Grate X 24.00 C= 0.600 I Reach 41:41 I Inflow = 0.70 cfs @ 12.11 hrs, Volume= 0.(X6 af I Outflow = 0.70 ds@ 12.11hrs, Volume= 0.046 af, Atten= 0%, Lag= 9.2 r'n r Routing by Stor-lnd method, Time Span= 0.0G20.00 hrs, dt= 0.01 hrs I Max. Velocity= 3.4 fps, Min. Travel Time= 0.2 minI Avg. Velocity = 1.4 hs, Avg. Travel Time= 0.6 min I Peak Depth= 0.26' I Capacity at bank full= 10.57 cfs Inlet Invert= 8,203.80', Outlet lnvert= 8,203.33'I 18.0" Diameter Pipe n= 0.013 Length= 46.4' Slope= 0.0101 7 I I I Middle Greek Housing Type ll24-hr Rainfall=2.20'- 50 Yr Event Prepared by Peak Civil Engineering, lnc. page 6 HvdroCAD@ 6.00 s/n 002040 O 1986-2001 Applied Microcomputer Svstems 3/19/2003 Subcatchment 50: 50 Runoff = 4.95 cfs@ 12.20 hrs, Volume=0.442af Runoff by SCS TR-20 method, UH=SCS, Time Span= 0,00-20.00 hrs, dt= 0.01 hrs Type ll 24-hr Rainfall=2.20" Area (ac) CN Description 0.280 74 >75% Grass cover, Good, HSG C14.516 73 Woods. Fair. HSG C 14.796 73 Weighted Average Length Slope Velocity Capacity Description cfs 125 0.2000 0.1 Sheet Floq WOODS Woods: Light underbrush n= 0.400 P2= 1.00" Shallow Goncentrated Flow, WOODS Unpaved Kv= 16.1fps 3.9 2,085 0.3000 8.8 0.3 275 0.1090 16.0 256.34 GhannelFloq 6pqgg p11911 Area= 16.0 sf perim= 16.5' r= 0.97, n= 0.030225 2,485 Total Pond 50P: 50P Tc trD 18.3 I t I I I T I I I I I I I I I I I I t lnfloul =Outflow =Primary = 8,248.50 8,252.OO Routing by Stor-lnd method, Time Span= 0.0S20.00 hrs, dt= 0.01 hrs Peak Elev= 8,249.63' Storage= 217 cf Plug-Flor detention time= 1 .7 min calculated for 0.539 af (100% of inflow) Storage and wetted areas determined by lnegular sedions Elevation Surf.Area Perim.lnc.Store Cum.Store Wet.Area(feet) (sq-ft) (feet) (cubiofeet) (cubiofeet) (sq-ft) 5.19cfs @ 12.19 hrs, Volume= 5.18cfs @ 12.20 hrs, Volume= 5.18cfs @ 12.20 hrs, Volume= 0 0.0575 95,0 0.540 af 0.5,40 af, Atten= 00,6, Lag= 0.6 min 0.540 af 00671 737 0 671 frimary OutFlow (Free Discharge)t-1=cirlvert Primary 8,248.50', Routi lnvert Outlet 18.0" x 102.4'long Gulvert RCP, end-section conforming to fill, Ke= 0.500 Outlet Invert= 8,243.50' S= 0.(X88 7 n= 0.013 Cc= 0.900 I I I I I I I I I I I I I I t I I I I Middle Creek Housing Type ll 2*hr Rainfall=2.20" - 50 Yr Event Prepared by Peak CivilEngineering, Inc. Page 7 HvdioCAD@ 6.00 s/n OO204O @ 1986-200l Applied Microcomputer Svstems 3/19/2003 Reach 51:51 5.18cfs @ 12.20 hrs, Volume= 0.540af 5.18 cfs @ IZ.ZO hrs, Volume= 0.539 af, Atten= 0%, Lag= g'1 t'n Routing by Stor-lnd method, Time Span= 0.0S20.00 hrs, dt= 0.01 hrs Max. Velocity= 10.7 fps, Min. Travel Time= 0.2 min Avg. Veloci$ = 3.7 fps, Avg. Travel Time= 0.5 min Peak Depth= 0.48' Capacity at bank full= 23.49 cfs lnlet lnvert= 8,248.50', Outlet Invert= 8,243.50' 18.0" Diameter Pipe n= 0.013 Length= 100.0' Slope= 0.0500 7 Reach 51.5:51.5 lnflow =Outflow = lnflow =Outflow = lnflow = Outflow = Routing by Stor-lnd method, Time Span= 0.0G20.00 hrs, dt= 0.01 hrs Max. Velocity= 22.21ps, Min. Travel Time= 0.1 min Avg. Velod$ = 7.7 fps, Avg. TravelTime= 0.2 min Peak Depth= 0.29' Capacity at bank full= 65.65 cfs Inlet Invert= 8,243.00', Outlet Invert= 8,203.20' 18.0" Diameter Pipe n= 0.013 Length= 101.9' Slope= 0.3906'/ Reach 52252 5.18 cfs @ 12.20hrs, Volume= 5.18cfs @ 12.20 hrs, Volume= 5.78cfs @ 12.19 hrs, Volume= 5.78cfs @ 12.19 hrs, Volume= 0.539 af 0.539 af, Atten= 0%, Lag= 9.1 t'n 0,585 af 0.585 af, Atten= 0%,Lag= 9.9 t'n Routing by Stor-lnd method, Time Span= 0.0&20.00 hrs, dt= 0.01 hrs Max. Velocity= 9.8 fps, Min. Travel Time= 0.0 min Avg. Velocity = 3.3 fps, Avg. Travel Time= 0.1 min Peak Depth= 0.55' Capacity at bank full= 19.91 cfs fnfet Invert= 8,202.90', Outlet lnverF 8,202.59 18.0" Diameter Pipe n= 0.013 Length= 10.3' Slope= 0.0359 7 Subcatchment 55: 55 Runoff = 2j2 cfs @ 11.94 hrs, Volume=0.098 af Runoff by SCS TR-20 method, UH=SCS, Time Span= 0.00-20.00 hrs, dt= 0.01 hrs Type ll 24-hr Rainfall=2.20" Middle Greek Housing Prepared by Peak Civil Type ll 24hr Rainfall=2.20'- 50 Yr Event Page I Area CN Descri 0.633 Length 98 Paved parking & roofs Slope Velocity Capacity DescriptionTc 4D 3.3 150 Sheet Floq n- 0.015 P2= 1.00" Reach 56:55 lnflow = 2.12 cfs @ 11.94 hrs, Volume= 0.098 af Outflow = 2.12ds @ 11.94 hrs, Volume= 0.098 af, Atten= 07o, Lag= g.g r'n Routing by Stor-lnd method, Time Span= 0.0G20.00 hrs, dt= 0.01 hrs Subcatchment 60: 60 Runoff = 0.36 cfs @ 1 1.93 hrs, Volume=0.016 af Runoff by SCS TR-20 method, UH=SCS, Time Span= 0.0G20.00 hrs, dF 0.01 hrs Type ll 24-hr Rainfall=2,20" I I I I I I I I I t I I I I I I I I I Paved roads dcurbs & sanrers Length Slope Capacity Description 2.2 63 0.0150 0.5 SheetFloq ROADWAY n= 0.015 P2= 1 ,00"0,6 43 0.0050 1.2 0.25 Channel Flow, GURB AlrtD GUTTER Area= 0.2 sf perim= 2.7 r= 0.02 n= 0.0152.8 106 Total Pond 50P: 60P Inflow = 0.36 cfs @ 11.93 hrs, Volume= Outflow = 0,36 cb @ 11.% hrs, Volume= Primary = 0.36 cfs @ 11.94 hrs, Volume= Routing by Stor-lnd method, Time Span= 0.0S20,00 hrs, dF 0.01 hrs Peak Elev= E,207.89' Storage= 10 cf Plug-Flow detention time= 1.1 min calculated for 0.016 af (1000/o of inflov) Storage and wetted areas determined by lrregular sections Elevation Surf.Area Perim.Inc.Store Cum.Store Wet.Area(feetl (sq-ft) (feet) (cubic-feet) (cubic-feet) (sq-ft) 0.016 af 0.016 af, Atten= 0016, Lag= 9.3 r'n 0.016 af 0017 424 8,207.77 8,207.97 0 0.0250 73.0 0 17 I I I I T I I I I I I I I I T t I I I lnflow = Outflow = Middfe Creek Housing Type ll24hr Rainfall=2.20''50Yr Event Prepared by Peak CivilEngineering, Inc. - Page 9 HvdioCAD@ 6.oo s/n oozoao 6 198e-2601 Applied Microcomputer Svstems 3/19/2003 frimary OutFlow (Free Discharge) T-1=Orifice/Grate L2=orificdcrate # Routing lnvert Outlet Devices 1 Primary 8,207.77 0.12'x0'55' HorizOrifice/GrateX20.00 C=0.600 2 DevicEl 8,207J7 2.75'x0.33'VertOrifice/Grate C=0.600 Reach 61: 61 3.68 cfs @ 11.98 hrs, Volume= 0.204 at 3.66 cfs @ tt.SS hrs, Volume= 0.204 af, Atten= 0%, Lag= 9.5 t'n Routing by Stor-lnd method, Time Span= 0.0S20'00 hrs, dt= 0.01 hrs Max. Velocity= 4.7 fps, Min. Travel Time= 0.6 min Avg. Veloci$ = 1.4 fps, Avg. Travel Time= 2.0 min Peak Depth= 0.68' Gapacity at bank full= 8.79 cfs f nlet fnvert= 8,203,00', Outlet Invert= 8,201.82' 18.0" Diameter Pipe n= 0.013 Length= 168.7' Slope= 0.0070 7 Subcatchment 70: 70 Runoff = 1.06cfs@ 11.95hrs, Volume= 0.M1 af Runoff by SCS TR-20 method, UH=SCS, Time Span= 0'00-20.00 hrs, dt= 0.01 hrs Type ll 24-hr Rainfall=2.20" Area (ac) CN Description 0.196 98 Paved roads dcurbs & sewers 0.066 98 Paved parking & roofs 0.310 74 >75% Giass cover, Good, HSG C 0.572 85 Weighted Average Tc Length Slope Veloci$ Capacity Description (min) (feet) (fUft) (fUsec) (cfs) 2.4 73 0.0150 0.5 Sheet Flow, ROADWAY n= 0.015 P2= 1.00" 1.2 140 O.O12O 1.9 0.38 Channel Flow GURBAND GUTTER 3.6 213 Total Pond 70P:70P lnflow = Outflow =Primary = 1.06 sfs @ 1.06 cfs @ 1.06 cfs @ 11.95 hrs, Volume= I 1.95 hrs, Volume= 11.95 hrs, Volume= 0.041 af 0.041 af, Atten= 0%, Lag= 9.1 t'n 0.041 af Middle Greek Housing Prepared by Peak Civil Engineering, Inc. Type ll 24hr Rainfall=2.20'- 50 Yr Event Page 10 Routing by Stor-lnd method, Time Span= 0,0o.20.00 hrs, dt= 0.01 hrs Peak Elev= E,206.78' Storage= '12 cf Plug-Flow detention time= 0.4 min calculated for 0.041 af (100% of inflow) Storage and wetted areas determined by lrregular sectiond I I I I I I I t I I I I I t I I I I I Elevation surf,Area Perim. Inc.store cum.store wet.Area(feet) (s+fi) (feet) (cubiefeet) (cubic-feet) (sq-fti8,206.5300.00008,206.73 14s 55.0 10 10 241 lrimary OutFlow (Free Discharge)L1=Orificer/Grate L2=Orifice/Grate # Routinq Inveft Outlet De\rices1 Primary 8,206.53' 0.12'x 0.55' Horiz. Oriflce/Grate X 20.00 C= 0.6002 Device 1 8,206.53 2.75'x 0.33'Vert Orifice/Grate C= 0.600 Reach 71:7i fnflow = 7.88cfs@ 11.98hrs, Volume= O.83OafOutflor = 7,E8 cfs @ 11.98 hrs, Vdune= 0.830 af, Atten= 0%, Lag= 0.2 min Routing by Stor-lnd mEthod, Time Span= 0,0G20.00 hrs, dF 0.01 hrs Max. Velocity= 6.5 fps, Min. Travel Time= 0.2 min Avg. Velocity = 2.4 fps, Avg. Travel Time= 0.6 min Peak Depth= 0.97' Capacity at bank full= 10.53 c,fs f nlet lnvert= 8,201.72' , Outlet Invert= 8,200.89' 18.0'Diameter Pipe n= 0.013 Lengrth= g!.9' glepE= 0.0100 T Subcatchment 80: 80 Runoff = 0.94 cfs @ 12.03 hrs, Volume= 0.049 af Runoff by SCS TR-20 method, UH=SCS, Time Span= 0.0G20,00 hrs, dt= 0.01 hrs Type ll 24-hr Rainfall=2.20" CN 1.'104 73 Woods, Fair, HSG C 1.639 73 WeightedAverage 74 Middle Creek Housing Type ll 24hr RainfalP2.2l'' 50 Yr Event Prepared by Peak CivilEngineering, Inc. Page 11 HvdioCAD@ 6.00 sln O02O4O @ 1986-2001 lpptied Microcomputer Svstems 3/19/2003 Tc Length Slope Velocity Capacity Description (min) (feet) (ffi) (fUsec) (cfs) 7.0 50 0.3500 0.1 2.1 430 0.4850 3.5 Sheet Flow, WOODS Woods: Light underbrush n= 0.400 P2= 1.00" Shallow Concentrated Flow, WOODS/LANDSCAPE 9.1 480 Total Woodland Pond 80P: 80P lnflow = 2.21 cfs @ 11.96 hrs, Volume= Outflow = 2.20 sfs @ 11.97 hrs, Volume= Primary = 2.20 cfs @ 11.97 hrs, Volume= 0.114 af 0.114 af , Atten= 17o, Lag= 9.5 t'n 0.114 af Routing by Stor-lnd method, Time Span= 0.00-20,00 hrs, dt= 0.01 hrs Peak Elev= 8,205.81' Storage= 57 cf PlugrFlow detention time= 0.9 min calculated for 0.114 af (100% of inflow) Storage and wetted areas determined by Inegular sections Elevation Surf.Area Perim.lnc.Store Cum.Store Wet.Area I I I I I I I I I t I t I I I I I I I 8,205.38 8,205,91 0 400 0.0 75.0 0 71 0 71 0 48 frimary OutFlow (Free Discharge) T-1=orific€/Grate L2=Orifice/Grate # Routing lnvert Outlet Devices 1 Primary 8,205.38' 0.1? x 0.55' Horiz. Orifice/Grate X 20.00 C= 0.600 2 Device 1 8,205.38' 2.75'x 0.33'Vert Orifice/Grate C= 0.600 Reach 81: 81 Inflow = 0.94 cfs @ 12.03 hrs, Volume= 0.049 af Outflow = 0.94 cfs @ 12,03 hrs, Volume= 0.049 al Atten= 0%, Lag= 0.0 min Routing by Stor-lnd method, Time Span= 0.00-20.00 hrs, dt= 0.01 hrs Reach 82= 82 Inflow = 10.04 cfs @ 11.98 hrs, Volume= 0.944 af Outflow = 10.04 cfs @ 11.98 hrs, Volume= 0.944 af, Atten= 00/o, Lag= g.g t'n Routing by Stor-lnd method, Time Span= 0.00-20.00 hrs, dt= 0.01 hrs Max. Velocity= 9.0 fps, Min. Travel Time= 0.0 min Avg. Velocity = 3.1 fps, Avg. TravelTime= 0.1 min Middle Greek Housing Prepared by Peak Civil Engineering, Inc. Type ll 24hr Rainfall--2.20" - 50 Yr Event Peak Depth= 0.90' Capacity at bank full= 14.86 cfs Inlet Invert= E,200.79', Outlet Invert= 8,200.51' 18.0" Diameter Pipe n= 0.013 Length= 14.0' Slope= 0.0200,/ Reach 83:83 I I I I t I I t I I I I I I I I I I I Volume= Volume= lnflow =Outflow = 10.O4 cfs @ 11.98 hrs, 10.00cfs@ 11.99hrs, 0.94af 0.9[3 al Atten= 0%,Lag= 9.6 t'n Routing by Stor-lnd method, Time Span= 0.00-20.00 hrs, dt= 0.01 hrs Max. Velocity= 9.6 fps, Min. Travel Time= 0.7 min Avg. Velocity = 3.3 fps, Avg. TravelTime= 2.0 min Peak Depth= 0.85' Capacity at bank full= 16,17 cfs Inlet InverF 8,199.40', Outlet Invert= 8,190.10' 18.0" Diameter Pipe n= 0.013 Lengrth= 392.7' Slope= 0.0297 ,f Subcatchment 85: 85 Runoff = 1.63cfs@ 11.94hrs, Volume= 0.065af Runoff by SCS TR-20 method, UH=SCS, Time Span= 0.0S20.00 hrs, dt= 0.01 hrs Type ll 2zl-hr Rainfall=2.20" o.47 0.217 Paved parking & roofs 0.664 Tc Length 2.4 92 0.0250 0.6 1.0 245 0.0570 4.2 Weighted Average Slope Velocity Capacity Description 98 74 90 Sheet Flour, PARKING n= 0,015 P2= 1,00" 0.83 Ghannel Flow, GURB AttD GUTTER Subcatchment 90:90 Runoff = 0.68 cfs @ 11.93 hrs, Volume=0.025 af Runoff by SCS TR-20 method, UH=SCS, Time Span= 0.00-20.00 hrs, dt= 0.01 hrs Type ll 24-hr Rainfall=2.20" Middle Creek Housing Type Il 24-hr Rainfall=2.20" - 50 Yr Event Prepared by Peak Civil Engineering, Inc. page 13 HvdroCAD@ 6.00 s/n 002040 @ 1986-2001 Apptied Microcomputer Svstems 3/19/2003 Woods, Good, HSG C >75% Grass cover, Good, HSG C 70 74 98 a (ac) 0.337 0.276 I I t I I I I I I I I I I I I I I I T 0.691 Weighted Average Tc Length Slope Velocity Capacity Description n 0.6 100 0.4390 2.6 0.9 190 0.5360 3.7 Sheet Floq WOODS Smooth surfaces n= 0.01 1 P2= 1.00" Shallow Concentrated Flow. WOODS Woodland Kv= 5.0 fps0.1 190 0.1895 31.8 1,016.37 ChannelFtow, GRASS DTTCH Area= 32.0 sf Perim= 17.9' r= 1.79 n= 0.0301.6 480 Total Pond 90P: 90P Inflow = 0.68 cfs @ 11.93 hrs, Volume= Outflow = 0.65 cfs @ 11.94 hrs, Volume= Primary = 0.65 cfs @ 11.94 hrs, Volume= 0.025 af 0.024 af, Atten= 4%, Lag= 9.9 rtn 0.024 at 0 Routing by Stor-lnd method, Time Span= 0.0G20.00 hrs, dt= 0.01 hrs Peak Efev= 8,245.41' Storage= 62 cf PfugFfor detention time= 5.4 min calculated for 0.024 af (99o/o of inflow) Storage and wetted areas determined by Inegular sestions Elevation Surf.Area Perim.Inc.Store Cum.Store Wet.Area(feet) (sq-ft) (feet) (cubic-feet) (cubicfeet) (sq-ft) 8,245.00 8,248.50 0 0.0460 80.0 537 537 ryryr,|Slow (Free Discharse) #1 Primary Routing by Stor-lnd method, Time Span= 0,00-20.00 hrs, dt= 0.01 hrs Max. Veloci$= 6.2 fps, Min. Travel Time= 0.3 min Avg. Velocity = 2,3 fps, Avg. TravelTime= 0.8 min lnflow =Outflow = 8,245.00' 12.0" x 106.5' long Culvert RCP, end-section conforming to fill, Ke= 0.500 Outlet Invert= 8,239.50' S= 0.05'16 7 n= 0.013 Cc= 0.900 Reach 91: 91 0.65 cfs @ 11.94 hrs, Volume= 0.024 al 0.65 cfs @ 11,94 hrs, Volume= 0.024af , Atten= 0%, Lag= 9.2 r'n Middle Greek Housing Prepared by Peak Civil Engineering, Inc. Peak Depth= 0.19' Capacity at bank full= 8.10 cfs Inlet Invert= 8,245.00', Outlet lnvert= 8,239.50' 12.0" Diameter Pipe n= 0.013 Lengrth= 106.5, Slope= 0.0516,/ Subcatchment 100: 100 Runoff = 1.04 cfs@ 11.93hrs, Volume=0.044 af Runoff by SCS TR-20 method, UH=SCS, Tirne Span= 0.OG2O.0O hrs, dt= 0.01 hrs Type ll 24-hr Rainfall=2.20" Type ll 2tl-hr Rainfall=2.20, - S0 yr Event Page 14 CN 74 98 95 >75% Grass cover, Good, HSG C Weighted Average 0.8 3.7 Tc tiD 2.3 o.4 Length Velocity Capacity Description 109 0.0367 90 0.0440 Sheet Flor, PARKTNG n= 0.015 P2= 1.(X)" 0.73 Channel Flow, CURB At{D GUTTER Pond 100P: {00p fnflow = 1.Mcfs@ 11.93hrs, Volume= O.C/HafOutfforrr = 1.M + @ 11 99 hrs, Volume= O.Waf , Atten= 0%, Lag= g.g,tn Primary = 1.04 cfs @ 11.93 hrs, Volunre= 0.O44 at Routing by Stor-lnd method, Time Span= 0.0G20.00 hrs, dF 0.01 hrs Peak Elev= 8,242.73' Storage= 1 cf Plug-Flow detention time= 0.0 min calculated for 0.044 af (1OOo/o of inflow) Storage and wetted areas determined by lnegular sestiond I I I I t I I I I I I I t I I I I I t Elevation SurfArea Perim.Inc.Store Cum.Store WetArea E,242.70 8,243.00 Prlmarv OutFlow }-t=o-riRcvcrateL2=Orificey'Grate 0 0.0100 50.0 (Free Discharge) 0 199 0 10 0 10 Primary 8,242.70' Primary 8,242.70' 0.12'x 0.55' Horiz Orifice/Grate X 20.00 C= 0.600 2.75'x 0.33'Vert Orifice/Grate C= 0.600 Middle Creek Housing Type ll 24-hr Rainfall=2.20'- 50 Yr Event Prepared by Peak Civil Engineering, lnc. page 15 HvdroCAD@ 6.00 s/n 002040 @ 1986-2001 Aoplied Microcomputer Svstems 3/19/2003 Reach 101: 101 Inflow = 1.68 cfs @ 11.94 hrs, Volume= Outflow = 1.66 cfs @ 11.94 hrs, Volume= 0.068 af 0.068 af, Atten= 1%, Lag= 9.4 r'n Routing by Stor-lnd method, Time Span= 0.0S20.00 hrs, dt= 0.01 hrs Max. Velocity= 8.2 fps, Min. Travel Time= 0.5 min Avg. Veloci$ = 2.4tps, Avg. Travel Time= 1.8 min Peak Depth= 0.31' Capacity at bank full= 8.21 cfs Inlet Invert= 8,239.00', Outlet Invert= 8,Z2S.SO' 12.0" Diameter Pipe n= 0.013 Length= 254.4' Slope= 0.0531 '/ Subcatchment 110: 110 Runoff = 1.A4 cfs @ 11,93 hrs, Volume=0.046 af Runoff by SCS TR-20 method, UH=SCS, Time Span= 0.0S2O.OO hrs, dt= 0.01 hrs Type ll 24-hr Rainfall=2.20" ac 0.015 >750lo Grass cover, Good, HSG C74 98 I I I I I I I I I I I I I I I I I I I .296 0.311 97 Weighted Average Slope Velocity Capacity DescriptionTc Length 95 0.0520 0.9 Sheet Floq PARKING n= 0.015 P2= 1.00"0.9 220 0.0500 3.9 0.78 Channet Ftow, CURB AND GUTTER Area= 0.2 sf Perim= 2.7' r= 0,07, n= 0.0152.7 315 Total Pond 110P: 1{0P Routing by Stor-lnd method, Time Span= 0.00-20.00 hrs, dt= 0.01 hrs Peak Efev= 8,229,74' Storage= I cf Plug-Flow detention time= 0.3 min calculated for 0.046 af (100o/o of inflow) Storage and wetted areas determined by lnegular sections lnflow =Outflow =Primary = 8,229.50 8,229.80 1.04 cfs @ 11.93 hrs, Volume= 1.04 cfs @ 11.93 hrs, Volume= 1.04sfs @ 11.93 hrs, Volume= 0 0.0100 50.0 0.046 af 0.046 af, Atten= 0%, Lag= 9.1 r,n 0.M6 af Elevation Surf.Area Perim.Inc.Store Cum.Store Wet.Area(feet) (sq-ft) (feet) (cubic-feet) (cubic-feet) (sq-ft) 0 10 0 10 0 199 Middle Creek Housing Type Il2*hr Rainfall=2.20'- 50 Yr Event Prepared by Peak Civil Engineering, Inc. page 16 HvdroCADO 6.00 s/n 002040 @ 1986-200'l Applied Microcomputer Svstems 3/19/2003 frimary OutFlow (Free Discharge)L1=Orifice/Grate L2=orifice/Grate lnvert I I I I I I I I t I I I I I I I I I I 1 Primary2 Device 1 8,229.50'. 8,229.50' 0.12' x 0.55' Horiz. Orifice/Grate X 20.00 C= 0.600 2.75'x 0.3i1'Vert Orifice/Grate C= 0.600 REach 111= 111 Inflow =Outflow = 2.69cfs @ 11.94 hrs, Volume= 2.68cfs @ 11.94 hrs, Volume= 0.114 af 0.114 af, Atten= 0%, Lag= 9.1 r'n Routing by Stor-lnd method, Time Span= 0.00-20.00 hrs, dt= 0.01 hrs Max. Velocity= 11.9 fps, Min. Travel Time= 0.1 min Avg. Velocity = 3.4 fps, Avg. Travel Time= 0.4 min Peak Depfft= 9.33' Capacity at bank full= 11.50 cfs Inlet fnverF 8,224.33', Outlet Invert= 8,216.00' 12.0" Diameter Pipe n= 0.013 Length= 80.0' Slope= 0.1041 'f Middle Greek Housing frgRqre_d by Peak Civil Engineering, lnc. 00 s/n 002040 Type ll 24hr Rainfalts-2.20" - 50 yr Event Page 17 Reach 11:11 Hydrograph Plot E910 11 12 13 14 nmo (houE) Reach 21:21 Hydrognph Plot Middle Creek Housing Type ll 24hr Rainfall=2.20'- 50 Yr Event frgPryllV Peak Civil Engineering, lnc. page 18 HvdroCAD@ 6.00 s/n 002040 @ 1986-2001 Applied Microcomputer Svstems 3/19D003 Reach 31: 31 Hydrograph Plot I I I 6 ;olt I I I t t I I I I t I I I T I Io o !l! 8 9 10 11 12 .t3 14 t5 16 ,t7 18 19 20 Tlme (houF) Reach 41:41 Hydrograph Plot 678910 11 12 13 14 15 16 17 18 1920 Time (hours) I t I I I I I I I T I I t I t I I I I Middle Creek Housing Type ll 24-hr Rainfall=2.20" - 50 Yr Event Prepared by Peak Civil Engineering, Inc. page 19 HvdroCAD@ 6.00 s/n 002040 @ 1986-2001 Applied Microcomputer Svstems 3/19/1003 8 910 11 12 1: nmo (hours) Reach 51.5: 51,5 Hydrograph Plot tt (, C'tr o(t ao tr 910 11 lime (hours) Reach 51: 5{ Hydrograph Plot 12 13 14 't5 t6 17 18 19 20 Middle Creek Housing Type ll 24-hr Rainfatl=2.20, - 50 yr Event I I I I I I I I T T I t I I I I I I I 6 o tr frqnqrg! ty Peak Civil Engineering, Inc. Reach 52= 52 Hydrograph Plot Reach 56:56 Hydrognph Plot 15 18 17 18 19 20 .EI cttr Middle Greek Housing Prepared by Peak Civil Engineering, Inc. Type ll 24hr RainfalF2.2l' - 50 Yr Event Page21 HvdroCAD@ 6.00 s/n 002040 @ 1986-2001 Applied Microcomputer Svstems 3/19/2003 Reach 61: 61 Hydrograph Plot o .J Il! Hydrograph Plot Middle Greek Housing Type ll 24-hr Rainfall=2.20'- 50 Yr Event Prepqredby Peak Civil Engineering, Inc. page22 HvdroCAD@ 6.00 s/n 002040 @ 1986-2001 Applied Microcomputer Svstems 3/19/2003 Reach 81: 81 Hydrcgraph Plot 8910 11 12 13 11 15 16 17.t8 1920 Time (houcf Reach 82:82 Hydrognph Plot 8 910 11 12 13 14 15 Tlme (houF) I I T g .J o ll. I I I I T I I I I I I I I I I T eIJ : E,tr i 11 18 19 20 I t I Middle Creek Housing Prepared by Peak Civil Engineering, Inc. Type Il 2$hr Rainfall=2.20'- 50 Yr Event Page 23 I I I I t I I T I I t I I I HvdroCAD@ 6.00 s/n 002040 @ 1986-2001 Applied Microcomputer Svstems 3/19/2003 Reach 83: 83 Hydrograph Plot I 9 10 11 12 13 Time (hours) Reach 91: 91 Hydrognph Plot 8 910 11 12 13 Time (hours) I I ltl Middle Greek Housing Prepared by Peak Civil Engineering, Inc. Type ll 24hr Rainfall=2.20'- 50 Yr Event Page24 I I I HvdroCAD@ 6.00 s/n 002040 @ 1986-2001 Applied Microcomputer Svstems 3/19/2003 Reach 101: 101 Hydrograph Plot 8 910 11 12 TIme (houFl 13 14 Reach 111:111 Hydrograph Plot ool a tr I T I T I I I I I I t I I I I I 191E1716 g o ct t!- 8 910 11 12 Time (hours) i I 't .I j j : i i i I . l : : : : : cbi l : :, : :' : :, 1918IA15141.2. \ I I Middle Creek Housing Type ll 24-hr Rainfall=2.40" - 100 Yr Event I Prepared by Peak Civil Engineering, Inc, Page 1 HydroCAD@ 6.00 s/n 002040 @ 1986-2001 Apolied Microcomputer Svstems 3/19/2003 r Subcatchment 10: 10 r Runoff = 0.86 cfs @ 11.93 hrs, Volume= 0.040 af Ir Runoff by SCS TR-20 method, UH=SCS, Time Span= 0.00-20.00 hrs, dt= 0.01 hrs Type ll 24-hr Rainfall=2.40" I Area (ac) CN Description 0.233 98 Paved roads dcurbs & sewers I Tc Length Slope Velocity Capacity Description(min) (feet) (ft/ft) (fUsec) (cb) r 2.2 60 0.0125 0.4 SheeIFIoqSHEETFLOW-ROAD I n= 0.015 P2= 1.00"0.9 70 0.0050 1.2 0.25 Channel Floq CURB AND GUTTER Area= 0.2 sf Perim= 2.7' r= 0.07' n= 0.015I I I I I I I I I 3.1 130 Total Pond 10P: 10P lnflow = 0.86 cfs @ 11.93 hrs, Volume= 0.O40 af Outflow = 0.86 cfs @ 11.94 hrs, Volume= 0.040 at Atten= 0%, Lag= 9.2 rtn Primary = 0.86 cfs @ 11.94 hrs, Volume= 0.040 af Routing by Stor-lnd method, Time Span= 0.0e20.00 hrs, dtr 0.01 hrs Peak Elev= 8,209.38' Storage= 14 cf Plug-Flow detention time= 0.7 min calculated for 0.040 af (100% of inflow) Storage and wetted areas determined by lnegular sections Elevation Surf.Area Perim. Inc.Store Cum.Store Wet.Arca(feet) (sq-ft) (feet) (cubic-feet) (cubic-feet) (sq-ft) 8,209.17 0 0.08,209.58 200 77.0 27 27 472 frimary OutFlow (Free Discharge) L1=Orifice/Grate Lz=orifice/Grate # Routing Invert Outlet Devices 1 Primary 8,209.17' 0.12'x0.55'Horlz.Orifice/GnteX20.00 C=0.6002 Device 1 8,209.17' 2.75'x 0.33'VerL Odfice/Grate C= 0.600 Reach l1: l1 I Inflow = 0.86 cfs @ 11.94 hrs, Volume= 0.040 afI Outflow = 0.85 cfs @ 11.95 hrs, Volume= 0.040 af, Atten= 170, Lag= 9.5 r'n t I Middle Creek Housing Type ll 24hr Rainfall=2.40' - 100 Yr Event Page2Prepared by Peak Civil Engin HydroCAD@6.00 s/n 002040 @ 1 Routing by Stor-lnd method, Time Span= 0.0G20.00 hrs, dt= 0.01 hrs Max. Velocity= 2.8 fps, Min. Travel l'ime= 0.9 min Avg. Velocity = 0.8 fps, Avg. TravelTime= 2.9 min Peak Depth= 0.34' Capacity at bank full= 7.41 ds Inlet Invert= E,205.70', Outlet Invert= 8,204.99' 18.0" Diameter Pipe n= 0.013 Length= 142.5' Slope= 0.0050'/ Subcatchment 20: 20 Runoff = 1.15 cfs @ 11.94 hrs, Volume=0.045 af Runoff by SCS TR-20 method, UH=SCS, Time Span= 0.0S20.00 hrs, dt= 0.01 hrs Type ll 24-hr Rainfall=2.40" Area (ac) CN Description 0.258 98 Paved roads dcurbs & sewers0.193 72 Woods/grass comb., Good, HSG C0.050 74 >75% Grass cover, Good. HSG G 0.501 86 Weighted Average Tc Length Velocity Capacig Description cfs 2.0 120 0.0680 1.0 Sheet Flow, ROADWAY n= 0,015 P2= 1.00"1.3 330 0.0550 4.1 0,82 Channel Flow CURB AtlD GUTTER Area= 0.2 sf perim= 2.7' p 0.07, n= 0.0153.3 450 Total Pond 20P:20P I I t I I I I t I I I t I I T t T I I Inflorr = 1.15cfs@ 11.%hrs,Volume= Outflow = 1.15 cfs @ 11.95 hrs, Volurne= Primary = 1.15 cfs @ 11.95 hrs, Volume= 0.045 af 0.045 af, Atten= 006, Lag= 9.2 r,n 0.M5 af Routing by Stor-lnd method, Time Span= 0.00-20.00 hrs, dt= 0.01 hrs Peak Elev= 8,209.55' Storage= 25 cf Plug-Flow detention time= 0.E min calculated for 0.045 af (100% of inflow) Storage and wetted areas determined by lnegular sections Elevation SurfArea Perim.Inc.Store Cum.Store Wet.Area(feet) (sq-ft) (feet) (cubic-feet) (cubic-feet) (sq-ft) 8,209.29 8,209.69 00.00290 68.0 39 0 39 frimary OutFlow (Free Discharge) L1=Orifice/Grate L2=orifice/Grate 0 I I I I I I I T I I I I I I I I I T I Middle Greek Housing Type ll 24-hr Rainfall=2.40'- 100 Yr Event Page 3Prepared by Peak Civil Engineering, lnc. HvdroCAD@ 6.00 s/n 002040 @ 1986-2001 Ap # Routino lnvert Outlet Devices i erlmary 8,209.29' 0.12x0.55'Horiz'Orifice/GrateX20.00 C=0.600 2 Devical 8,209.29' 2.75'x0'3SVertOrifice/Grate C=0.600 Reach 21221 2.00 cfs @ 11.95 hrs, Volume= 0.084 af 1 .95 cfs @ t t.SO hrs, Volume= 0.084 af, Atten= 2o/o, Lag= 0.8 min Routing by Stor-lnd method, Time Span= 0.0G20.00 hrs, dt= 0.01 hrs Max. Velocity= 3,5 fps, Min. Travel Time= 1.3 min Avg. Veloci$ = 1.0 fps, Avg. Travel Time= 4'6 min Peak Depth= 0.52' Gapacity at bank full= 7.42 cfs Inlet Invert= 8,204.89', Outlet Invert= 8,203.55' 18.0" Diameter Pipe n= 0.013 Lengrth= 268.5' Slope= 0.0050'/ lnflow = Outflow = 2.5 2.8 120 0.0375 0.8 210 0.0050 Subcatchment 30: 30 Runoff = 2.39cis@ 12.C4hrs, Volume=0.128 al Runoff by SCS TR-20 method, UH=SCS, Time Span= 0.0G20.00 hrs, dF 0.01 hrs Type ll 24-hr Rainfall=2.40" Area (ac) CN DescriPtion 0.083 98 Paved Parking & roofs 0.678 98 Paved roads dcurbs & sewers 0.214 74 >75% Grass cover, Good, HSG C 0,975 93 Weighted Average Tc Length Slope Velocity Capacity Description (min) (feet) (ft/ft) (fUsec) (cfs) 6.7 40 0.2500 0.1 Sheet Floq LANDSCAPE Woods: Ught underbrush n= 0.400 P2= 1.00" Sheet Flow ASPHALT n= 0.015 P2= 1.00"1.2 0.25 ChannelFlow,GURBAI'IDGUTTER lnflow = 2.30cts@ 12.W hrs, Volume= Outffow = 2.29ds@ 12.04 hrs, Volume= Primary = 2.29cls@ 12.04 hrs, Volume= 2.7' r= 0.07' n= 0.015 Q.128 al 0.128 af , Atten= 0%, Lag= 9.3 t'n 0.128 al 12.0 370 Total Pond 30P:30P Routing by Stor-lnd method, Time Span= 0.00-20.00 hrs, dt= 0.01 hrs Middle Creek Housing Type ll 24hr Rainfalts2.4l" - 10O Yr Event Prqpqglby Peak Civil Engineering, lnc. page4 HvdroCAD@ 6.00 s/n 002040 @ 1986-2001 Applied Microcomputer Svstems 3/19UlbO3 Peak Elev= 8,208.44' Storage= 45 cf Plug-Flow detention time= 0.7 min calculated for 0.128 af (100% of inflow) Storage and wetted areas determined by lnegular sections Elevation Surf.Area Perim.lnc,Store Cum.Store Wet.Area(feet) (sq-ft) (feet) (cubic-feet) (cubic-feet) (sq-ft) I I t I I t I I I I I I t T I t I I I 8,207.99 8.208,50 0 0.0300 65.0 0 51 0051 337 frimary OutFlow (Free Discharge)L1=Orifice/Grate L2=orifice,/Grate Invert Primary 8,207.99' Device 1 8.207.99' 0.12 x 0.55' Horiz. OrlflcdGrate X 20.00 C= 0.600 2.75 x 0.33'Vert Orifice/Grab C= 0.600 Reach 3l:31 f nflour = 3.82 cfs @ 1 1.98 hrs, Volume= 0.212 at Outflow = 3.E2 cfs @ 11.99 hrs, Volume= 0.212a1, Atten= 006, Lag= 0.2 min Routing by Stor-lnd method, f ime Span= 0.0G20.00 hrs, dt= 0.01 hrs Max. Velocity= 4.2fp, Min. Travel Time= 0.3 min Avg. Velocity = 1.2 fps, Avg. Travel Time= 0.9 min Peak Depffi= 9.76' Capacity at bank full= 7.44 cfs Inlet Inverts 8,203.45', Outlet Invert= 8,203.10 18.0" Diameter Pipe n= 0.013 Length= 69.7' Slope= 0.0050 7 Subcatchment 40: 40 Runoff = 0.84 ds@ 12.11hrs, Volume= 0.054af Runoff by SCS TR-20 method, UH=SCS, Time Span= 0,0&20.00 hrs, dt= 0.01 hrs Type ll 24-hr Rainfall=2.40" ac) CN 0.272 98 Paved parking & roofs0.506 74 >75% Grass cover, Good, HSG C 0.778 82 Weighted Average I I Middle Greek Housing Type ll24hr Rainfall=2.40'- 100Yr Event I Prepared by Peak Civil Engineering, Inc. Page 5 HvdroCADO 6.00 s/n 002040 @ 1986-2001 Applied Microcomputer Svstems 3/19/2003 I Tc Length Slope Velocity Capacity Descriptionr (min) (feet) (fUft) (fUsec) (cfs) 17.4 125 0.0320 0,1 Sheet Flow, LANDSCAPE I Grass: Short n= 0.150 P2= 1.00"t 0.1 85 0.4710 10.3 Shallow Concentrated Floq LATIDSCAPE Grassed Watenray Kv= 15.0 fps I 0.2 36 0.0100 3.1 6.24 Ghannel Floq GRASS DITCHI Area= 2.0 sf Perim= 4.0' r= 0.50' n= 0.030 17.7 246 Total r Pond40P:40P I Inflow = 0.84 ds @ 12.11hrs, Volume= 0.054 af I Outflow = 0.&4 ds @ 12.11 hrs, Volume= 0.054 al Atten= 0%, Lag= 9.1 *'n Primary = 0.84 ds @ 12.11 hrs, Volume= 0.054 af I Routing by Stor-lnd method, Time Span= O.OO20.OO hrs, dt= 0.01 hrsI Peak Elev= 8,206.81' Storage= 2 cf I Plug-Flow detention time= 0.0 min calculated for 0.054 af (100% of inflow) I Storage and wetted areas determined by lnegular seciions r Elevation Surf.Area Perim. Inc.Store Gum.Store Wet.Area t (feet) (sq-ft) (feet) (cubic-feet) (arbic-feet) (sq-ft) 8.206.8000.0000E,2oE.OO 555 250.0 222 222 4,976 II frimary OutFlow (Free Discharge) L1=Orificey'Grate I # Routinq Invert Outlet Devices1 Primary 8,206.80' 0.55'x0.12''Horiz.Orifice/GrateX24.00 C=0.600 I Reach 41= 41 I lnflow = 0.84 cfs @ 12.11 hrs, Volume= 0.054 af t Outflow = 0.&4 ds @ 12.11 hrs, Volume= 0.054 af, Atten= 0%, Lag= 0.2 min r Routing by Stor-lnd method, Time Span= 0.0S20.00 hrs, dt= 0.01 hrs t Max. Velocity= 3.6 fps, Min. TravelTime= 0.2 minr Avg. Velocity = 1.4 fps, Avg. Travel Time= 0.5 min I Peak Depth= 0.29' I Capacity at bank full= 10.57 cfs Inlet lnvert= 8,203.80', Outlet Invert= 8,203.33'r 18.0" Diameter Pipe n= 0.013 Length= 46.4' Slope= 0.0101 '/ I I I Middle Creek Housing Type ll 2*hr Rainfall=2.40" - 100 Yr Event Prepared by Peak Civil Engineering, lnc. Page 6 HvdroCAD@ 6.00 Vn 002040 O 1986-2001 Applied Microcomputer Svstems 3/19/2003 Subcatchment 50: 50 Runoff = 6.56 cfs @ 12.18 hrs, Volume= 0.554 af Runoff by SCS TR-20 method, UH=SCS, Time Span= 0.0G20.00 hrs, dt= 0.01 hrs Type ll 24-hr Rainfall=2.40" Area (ac) CN Description 0.280 74 >757o Grass cover, Good, HSG C 14.516 73 Woods, Fair, HSG C 14.796 73 Weighted Average Tc Length Slope Velocity Capacity Description(min) (feet) (ffi) (fUsecl (cfs) I I I I I I I I I I I I I I I t I I I Sheet Floq WOODS Woods: Light underbrush n= 0.400 P2= 1.00" Shallow Concentrated Flow, WOODS Unpaved Kv= 16.1 fps0.3 275 0.1090 16.0 2ffi.U Channel Flow, GRASS DITGH Pond S{lP:50P Inflorr = 6.82 ds @ 12.18hrs, Volume= 0.663 af Outflow = 6.E0 cfs @ 12.19 hrs, Volume= 0.662 af, Atten= 0%, Lag= 9.7 r'n Primary = 6.80 cfs @ 12.19 hrs, Volume= 0.662 af Routing by Stor-lnd mEthod, Time Span= 0,0G20.00 hrs, dt= 0.01 hrs Peak Elev= 8,249.88' Storage= 265 cf Plug-Florrr detention time= 1.5 min calculated for 0.662 af (100o/o of inflow) Storage and wetted areas determined by lnegular sections Elevation Surf.Area Perim.lnc.Store Cum.Store Wet.Area(feetl (s+ft) (feet) (cubicfeet) (cubic-feet) (sq-ft) 18.3 125 0.2000 0.1 3.9 2,085 0.3000 E.8 8,248.50 8,252.00 0 0.0575 95.0 0 671 00671 737 frimary OutFlow (Free Discharge)L1=cirlvert # Routinq Invert Outlet Devices 1 Primary 8,248.50' 18.0" x 102.4 long Culvert RCP, end-section conforming to fill, Ke= 0.500 Outlet Inveri= 8,243.50' S= 0.0488'/ n= 0.013 Cc= 0.900 I I Middle Greek Housing Type ll24hr Rainfall=2.40'- l1lYrEvent I Prepared by Peak Civil Engineering, Inc. page 7 HvdroCAD@ 6.00 s/n 002040 @ 1986-2001 Applied Microcomouter Svstems 3/19pb03 r Reach 5l:5{ - lnflow = 6.80 cfs @ 12.19 hrs, Volume= 0.662 af I Outflow = 6.80 cfs @ 12.19 hrs, Volume= 0.662 af, Atten= 0%, Lag= 9.1 r'n Routing by Stor-lnd method, Time Span= 0.00-20.00 hrs, dt= 0.01 hrsI Max. Velocity= 11.5 fps, Min. TravelTime= 0.1 minI Avg. Velocity = 3.8 fps, Avg. Travel Time= 0.4 min r Peak Depth= 0.55' I Capacity at bank full= 23.49 cfsr Inlet lnvert= 8,248.50', Outlet Invert= 8,243.50' 18.0" Diameter Pipe n= 0.013 Length= 100.0' Slope= 0.0500'/ r Reach 51.5:51.5 I Inflorlrr = 6.80 ds @ 12.1ghrs, Volume= 0.662 afI Outflow = 6.80 cfs @ 12.19 hrs, Volume= 0.662 af, Atten= 0%, Lag= g.g r'n I Routing by Stor-lnd method, Time Span= 0.0O20,00 hrs, dt= 0.01 hrs I Max. Velocity= 24.0 fts, Min. TravelTime= 0,1 min Avg. Velocity = 8.0 fps, Avg. Travel Time= 0.2 min I Peak Depth= 0.33'r Capacity at bank full= 65.65 cfs lnlet Invert= 8,243,00', Outlet Invert= 8.203.20,I 18.0" Diameter Pipe n= 0.013 Lengrth= 101.9, Slope= 0.3906,/I Reach 52= 52 I Inflor = 7.52 c'fs @ 12.19 hrs, Volume= 0.716 afOutflow = 7.52 cfs @ 12.19 hrs, Volume= 0.716 af , Atten= 0%, Lag= g.g rln I Routing by Stor-tnd method, Time Span= O.OtrZO.OO hrs, dt= 0.01 hrs Max. Velocity= 10.5 fps, Min. Travel Time= 0.0 min I Avg. Velocity = 3.5 fps, Avg. TravelTime= 0.0 min I Peak Depth= 0.64' Capacity at bank full= 19.91 cfs I lnlet Invert= 8,202.90', Outlet Invert= 8,202.53, I 18.0" Diameter Pipe n= 0.013 Lengrth= 10.3' Slope= 0.0359 ? Subcatchment 55: 55 T Runoff = 2.32 cfs @ 11.94 hrs, Volume= 0.108 af I Runoff by SCS TR-20 method, UH=SCS, Time Span= O.OG2O.OO hrs, dt= 0.01 hrs Type ll 24-hr Rainfall=2.40" I I HvdroCAD@ 6.00 s/n 002040 @ '1986-2001 Applied Microcomputer Svstems 3i/192003 Area (ac) CN Description 0.633 98 Paved parking & roofs Tc Length Slope Velocity Capacity Description(min) (feet) (ffi) (fUsec) (cfs) 3.3 150 0.0300 0.8 Sheet FloW n= 0.015 P2= 1.00" Reach 56: 56 Middle Grcek Housing Prepared by Peak Civil Engineering, Inc. Type Il 2t{-hr Rainfall=2.40' - 100 Yr Event Page E 0.108 af 0.108 af, Atten= 0%, Lag= 9.9 r'n lnflow =Outflow = 2.32 ds @ 11.S4hrs, Volume= 2.32cfs@ 11.94 hrs, Volume= Routing by Stor-lnd method, Time Span= 0.0G20.00 hrs, dt= 0.01 hrs Subcatchment 60: 60 Runoff = 0.39 cfs @ 11.93 hrs, Volume=0.01E af Runoff by SCS TR-20 method, UH=SCS, Time Span= 0.0S20.00 hrs, dt= 0.01 hrs Type ll 24-hr Rainfall=2.40" Paved roads dcurbs & sewers I I I I I I I I I I I t I I I I I I I Tc Length Slope Velocity Description 2.2 63 0.0150 0.5 Sheet Floq ROADWAY n= 0.015 P2= 1.00"0.6 43 0.0050 1.2 0.25 Channel FIow, GURB Al,lD GUTTER Area= 0.2 sf Perim= 2.2 r= 0.07 n= 0.0152.8 106 Total Pond 60P: 60P Inflow = 0.39 cfs @ 11.93 hrs, Volume= Outflow = 0.39 cfs @ 11.94 hrs, Volume= Primary = 0.39 cfs @ 11.% hrs, Volume= 0.018 af 0.018 af, Atten= 0%, Lag= 9.3 r1n 0.018 af 0017 424 Routing by Stor-lnd method, Time Span= 0.0G20.00 hrs, dt= 0.01 hrs Peak Elev= 8,207.89' Storage= 10 cf PlugFlorrt detention time= 1 .1 min calculated for 0.018 af (10Oo/o of inflow) Storage and wetted areas determined by lrregular sections Elevation Surf.Area Perim.lnc.Store Cum.Store Wet.Area(feet) (sq-ft) (feet) (cubic-feet) (cubic-feet) (sq-ft) 8,207.77 8,207.97 0 0.0250 73.0 0 17 Middle Creek Housing Type ll 24-hr Rainfall=2.40" - 100 Yr Event I I I I I I I I I I I I I I I I I I I frepqred by Peak Civil Engineering, Inc. lrimary OutFlow (Free Discharge)Ll=Orifice/Grate t-2=Orificey'Grate f Routins lnveqt Outlet Devices1 Primary 8,207.77' 0.12'x 0.S5' Horiz. Orifice/Grate X ZO.OO C= O6OO2 Device I 8,207.77' 2.75' x 0.iXl, Vert Orifice/Grate C= 0.600 Reach 61: 61 f nflow = 4.12 cfs @ 11.98 hrs, Volume=Outffow = 4.11 cfs @ 11.98 hrs, Volume= Routing by Stor-lnd method, Time Span= 0.OS2O.OO hrs, dt= 0.01 hrs Max. Velocity= 4.9 fps, Min. Travel Time= 0.6 min Avg. Velocig = 1.4 fps, Avg. TravelTime= 1.9 min Peak Depth= 0.72' Capacity at bank full= 8.79 cfs Inlet Invert= 8,203.00', Outlet Invert= 8,201.82' 18.0" Diameter Pipe n= 0.013 Length= 16g.2 Slope= 0.OOZO T Subcatchment 70: 70 Runoff = 1.23cft@ 11.95hrs, Volume=0.04E af Euno!{ !y 9C9 TR-20 method, UH=SCS, Time Span= O.OG20.OO hrs, dt= 0.01 hrs Type ll 2&hr Rainfall=2.40" ' 0.230 af 0.230 af, Atten= 0%, Lag= 9.4.,n 0.196 0.066 98 98 74 Paved roads Wcurbs &sewers Paved parking & roofs 0.572 85 Tc Length >75% Grass cover Weighted Average S!-oqe Velocrty Capacity Description 2.4 't.2 3.6 73 0.0150 140 0.0120 0,5 1.9 Sheet Flou ROADWAY n= 0.015 P2= 1.00" 0.38 Channel Flow, CURB Al,lD GUTTER 213 Total 1.23 cfs @ 11.95 hrs, 1.23 cfs @ 11.95 hrs, 1.23 cfs @ 11.95 hrs, .07' n= 0.015 0.048 af 0.M8 af, Atten= 0%, Lag= 9.1 r'n 0.048 af Pond 70P:70P lnflow =Outflow =Primary = Volume= Volume= Volume= Middle Creek Housing Prepared by Peak Civil Engineering, Inc. Type ll 24hr Rainfall=2.40" - 1@ yr Event Routing by Stor-lnd method, Time Span= 0.0G20.00 hrs, dt= 0.01 hrs Peak Elev= 8,206.80' Storage= 13 cf Plug-Flow detention time= 0.4 min calculated for 0.M8 af (100% of inflow) Storage and wetted areas determined by lnegular sections (feet) (sq-ft) (feet) (cubiofeet) (cubic-tuet) (sq-ft)E,206.5300.00008,206.73 145 5s.0 10 10 241 lrimary OutFlow (Free Discharge)Ll=Orifice/Grate L2=Orifice/Grate # Routing lnvert Outlet Devices1 Primary 8,206.53' 0.1? x 0.55 Horiz. Orlfice/Grate X 20.00 C= 0.6002 Device 1 8,206.53' 2.75'x 0.iXl'Vert Oriftce/Grate C= 0.600 Routing by Stor-lnd method, Time Span= 0.0G20.00 hrs, dt= 0.01 hrs Max. Velocity= 6.7 fps, Min. Travel Time= 0.2 min Avg. Velocity = 2.5 fps, Avg. TravelTime= 0.6 min Peak Depth= 1.10' Capacity at bank full= 10.53 cfs lnfet fnverts 8,201.72', Outlet Invert= 8,200.89' 1E.0" Diameter Pipe n= 0.013 Lengrth= g!.9' gl6pE= 0.0100 T Subcatchment 80: 80 Runoff = '|'.226s@ 12.O2hrs, Volume=0.062 af Runoff by SCS TR-20 method, UH=SCS, Time Span= 0.0G20.00 hrs, dt= 0.01 hrs Type ll 24hr Rainfall=2.40" Reach 71271 9.39 cfs @ 11.99 hrs, Volume= 0.994 af 9.39 c{s @ 11.99 hrs, Volume= 0.994 al Atten= 0%, Lag= 9.2 r'n I I t t I I t t I I I I t I t t I I I Elevation Surf.Area Perim.lnc.Store Cum.Store Wet.Area lnflow =Outfloll = Woods, Fair, HSG C73 74 73 Middle Creek Housing Type ll 24hr Rainfall=2.40'- 100 Yr Event frgnqredby Peak Civil Engineering, Inc, page 11 HvdroCAD@ 6.00 s/n 002040 @ 1986-2001 Applied Microcomputer Svstems 3/1g12003 Tc Length Slope Velocity Capacig Descriptionmin) (fee0 (ft/ft) (fUsec) (cfs) Woodland Kv= 5.0 fps9.1 480 Total Pond 80P:80P 7.0 50 0.3500 0.1 2.1 430 0.4850 3.5 Sheet Flow, WOODS Woods: Light underbrush n= 0.400 P2= 1.00" Shallow Concentrated FloW WOODS/LAI,|DSCAPE 0.136 af 0.136 al Atten= 17o, Lag= 9.6 r'n 0.136 af Inflow = 2.66 cfs @ 11.96 hrs, Volume= Outflow = 2.63 cfs @ 11.97 hrs, Volume= Primary = 2.63 cfs @ 11.97 hrs, Volume= Routing by Stor-lnd method, Time Span= 0.@20.00 hrs, dt= 0.01 hrs Peak Elev= 8,205.91' Storage= 71 cf Plug-Florv detention time= 0.8 min calculated for 0.136 af (100% of inflow) Storage and wetted areas determined by lnegular sections Elevation Surf.Area Perim.lnc.Store Cum.Store Wet.Area I I T t I I t I I I I I I I I I I I I 8,205.38 8,205.91 048 0 71 0 71 0 0.0400 75.0 lrimary OutFlow (Free Discharge)L1=Orificey'Grate L2=Orifice/Grate Pdmary Device 1 8,205.38' 8,205.38', 0.12'x 0.55' Horiz. Orifice/Grate X 20.00 C= 0.600 2.75'x 0.33'Vert OrificelGrate C= 0.600 lnflow =Outflow = Reach 8l:81 1.22cts@ 12.02 hrs, Volume= 0.062af 1.22ds @ 12.02 hrs, Volume= 0.062 af, Atten= 0%, Lag= g.g rn'n Routing by Stor-lnd method, Time Span= 0.0G20.00 hrs, dt= 0.01 hrs lnflow =Outflow = Reach 82:82 1 1 .98 cfs @ 1 1 .98 hrs, Volums= 1.129 af 11.98cfs@ 11.98hrs, Volume= 1j29af, Atten=0%, Lag= g.gr,n Routing by Stor-lnd method, Time Span= 0.00-20.00 hrs, dt= 0.01 hrs Max. Velocity= 9.4 fps, Min. Travel Time= 0.0 min Avg. Velocity = 3.3 fps, Avg. Travel Time= 0.1 min Middle Creek Housing Type ll24hr Rainfall=2.40, - 100yr Event Prepared by Peak Civil ineering, Inc. I Peak Deplh= 1.02' Capacity at bank full= 14.86 cfs lnlEt Invert= 8,200.79', Outlet lnvert= 8,200.01' 18.0" Diameter Pipe n= 0.013 Length= 't4.0' Slope= 0.0200'/ Reach 83:83 Inflow = 1 1.98 cfs @ 1 1.98 hrs, Volume= Outflow = 11.94 cfs @ 11.99 hrs, Volume= Page 12 I I I I I I I I I I I I I I I I I I I 1.129 at 1128af, Atten= 0%,Lag= 9.6 t'n Routing by Stor-lnd method, Time Span= 0.0G20.00 hrs, dt= 0.01 hrs Max. Velocity= 10.0 fps, Min. Travel Time= 0.7 min Avg. Velocity = 3.5 fps, Avg. Travel Time= 1.9 min Peak Depth= 0.96' Capacity at bank tull= 16.17 cfs lnlet lnvert= 8,199.40', Outlet Inverts 8,190.10' 18.0" Diarneter Pipe n= 0.013 Length= 392J, Slope= O.O2g7,l Subcatchment 85: 85 Runoff = 1.84.cfs@ 11.%hrs, Volume=0.074 al Euno{ ry 9CS TR-20 method, UH=SCS, Time Span= O.OG2O.00 hrs, dt= 0.01 hrs Type ll 24-hr Rainfrall=2.40" Area 0.47 0.217 Paved parking & roofs 0.64f 90 Weighted Average Length Slope Velocity Capacity Desuiption 92 245 0.0250 0.0570 0.6 4.2 Tc ]D 2.4 1.0 Sheet Flow, PARKING n= 0.015 P2= 1.00' 0.83 Channel Flow, GURB Al,lD GUTTER Subcatchment 90: 90 Runoff = 0.84 cfs @ 11.93 hrs, Volume=0.030 af funoff !y SCS TR-20 method, UH=SCS, Time Span= 0.0G20.00 hrs, dt= 0.01 hrs Type ll 24-hr Rainfall=2.40" Middle Creek Housing frepared by Peak Civil Engineering, Inc. Type ll 24hr Rainfall=2.40'- 100 Yr Event Page 13 6.00 s/n 002040 O 1986- 0.337 0.276 CN 70 74 98 (a Woods, Good, HSG C >75% Grass cover, Good, HSG C 078 0.691 Weighted Average Tc Length Sf9p" Velocity Capacity Description I I I I I I I I I I I I I I I I t t I Woodland Kv= 5.0 fps0.1 190 0.1895 31.8 1,0.t6.37 Channet Ftow, GRASS DTTCH 1.6 480 Total min 0.6 100 0.9 190 0.5360 3.7 0.84 cfs @ 11.93 hrs, Volume= 0.81 cfs @ 11.94 hrs, Votume= 0.81 cfs @ 11.94 hrs, Votume= Sheet Flow, WOODS Smooth surfaces n= 0.01 1 P2= 1.00" Shallow Concentrated Flow WOODS Pond 90P: 90P Inflow =Outflow =Primary = 0.030 af 0.030 al Atten= 4olo, Lag= 9,6 r'n 0.030 af Routing by Stor-lnd method, Time Span= 0.OS20.OO hrs, dt= 0.01 hrs Peak Efev= 8,245.46' Storage= 71 cf Pf ug-Flow detention time= 4.9 min calculated for 0.030 at (ggo/o of inflow) Storage and wetted areas determined by Inegular sections Elevation Surf.Area Perim.Inc,Store Cum.Store Wet.Area 8,245.00 8.248.50 Primarv OutFlowL1=cirlvert (Free Discharge) 0 528 0 537 0 537 0 460 0.0 80.0 Primary Inflow =Outflow = 8'245.00' '12.0" x 106.5'-lo-ng culvert RCp, end-section conforminglo ntt, 11E= g59g Outlet Invert= 8,239.50' S= 0.0516,/ n= 0.013 Cc= 0.gb0 Reach 91: 91 0.81 cfs @ 11.94 hrs, Volume= 0.030 af 0.81 cfs @ 11.94 hrs, Volume= 0.030 af, Atten= 0%, Lag= 9.2 ,tn Routing by Stor-lnd method, Time Span= O.OO-2O.OO hrs, dt= 0.01 hrs Max. Velocity= 6.6 fps, Min. Travel Time= 0.3 min Avg, Velocig = 2.4 fps, Avg. Travel Time= 0.7 min Middle Grcek Housing Prepared by Peak Civil Engineering, Inc. Type Il24hr Rainfall=2.40'- 100 Yr Event Peak Depth= 0.21' Capacity at bank full= 8.10 cfs Inlet lnvert= 8,245.00', Outlet Invert= 8,239.50' 12.0" Diameter Pipe n= 0.013 Lengttr= 106.5' Slope= 0.0516 T Subcatchment 100: 100 Runoff = 1.15 cfs @ 1 1 .93 hrs, Volume=0.O49 af Runoff by SCS TR-20 method, UH=SCS, Time Span= 0.00-20.00 hrs, dt= 0.01 hrs Type ll 24-hr Rainfall=2.40" ac) CN0.u4 74 >75% Grass cover, Good, HSG C & 95 Weighted Average Tc Length Slope Capacity Dsscription 10s 0.0367 0.8 Sheet Floq PARKING n= 0.015 P2= 1.00"0.4 90 0.0440 3.7 0.73 Channel Florl, GURB AllD GUTTER Pond {00P: lfilP lnflow = 1.15 cfs @ 11.93 hrs, Voiume= 0.O49 af Outflow = 1.15 cfs @ 11.93 hrs, Volume= 0.04g af, Atten= 0%, Lag= g.g r,nPrimary = 1.15 cfs @ 11.93 hrs, Volume= 0.049 af Routing by Stor-lnd method, Time Span= 0.0G20.00 hrs, dF 0.01 hrs Peak Elev= 8,242.79 Storage= 1 cf Plug-Flout detention time= 0.0 min calculated for 0.049 af (100% of inflow) Storage and wetted areas determined by lnegular sections Elevation Surf.Area Perim,Inc.Store Cum.Store Wet.Area(feet) (sq-ft) (feet) (cubic-feet) (cubic-feet) (sq-ft) I t I I I I I I I T I t I I I I t I I 8,242.70 8,243.00 0 0.0100 50.0 0 10 0 10 lrimary OutFlow (Free Discharge) t-1=Office/GrateL2=Orifice/Grate Primary Primary 8,242.7}', 8,242.7}', Outlet Devices 0.12'x 0.55' Horiz Orifice/Grate X 20.00 C= 0.600 2.75'x 0.33 Vert Orifice/Grate C= 0.600 0 199 t I I I I I t I I I I I I I I I I I I Middfe 9f"! Housing Type tl 2*hr Rainfal=2.4ln - 100 yr Eventltgptt:lly P_eak civil Fjq'lg9lilg, !n...HvdroCAD@ 6.00 s/n 002040 6 1986-2601 Applied Microcomputer Svstems 3/19/2003 Reach 101: {01 Inflow = 1.96 cfs @ 11.94 hrs, Volume=Outffow = 1.94 cis @ tt.s+ hrsi Volume= 0.079 af 0.079 af, Atten= 1%, Lag= 9.4 rn'n flouti1g byStor-lnd method, Time Span= 0.0&2O.OO hrs, dt= 0.01 hrs Max. Velocity= 8.6 fps, Min. TravelTime= 0.S min Avg. Velocity = 2,4 fps, Avg. Travel Time= 1.7 min Peak Depth= 0.33' Capacity at bank full= 8.21 cfs f nf el I nvert= 8, 239. 00', Oufl et lnverF 8,Z2S.SO, 12,0" Diameter Pipe n= 0.013 Length= 2&4.4, Slope= 0.0531 ,/ Subcatchment 110: 110 Runoff = 1.14 cfs @ 11.93 hrs, Volume=0.051 af Runoff by scs rR-20 method, UH=scs, Time span= 0.0G,20.00 hrs, dt= 0.01 hrsType ll 24-hr Rainfall=2.40'' 2.7'r=0.07'n=0. Pond 110P: 110P 0.051 af 0.051 af, Atten= 0%, Lag= 9.1 r'n 0.051 af Elevation Surf.Area Perim.Inc.Store Cum.Store Wet.Area Are? (ac) CN Description 0.015 74 >7S% Grass c 9.?96 98 paved parkins & roofs 0.31 1 97 Weighted Average . Ig Le.letlr SLgpg Velocity Capacity Description(min) (feeO (fiifrt (""*t ,t t1.8 95 0.0520 0,s 2zo o.o5oo 3.s o.7s .ffit#F,"i:t[3$'*o currER 315 Total fnflow = 1.14cfs@ 11.93hrs, Volume=Outffow = 1.14 cfs @ 11.93 hrs, Volume=Primary = 1.14cts@ tt.SShrs, Volume= Routing by Stor-lnd method, Time Span= 0.00-20.00 hrs, dt= 0.01 hrs Peak Efev= 8,229.75' Storage= g cf Plug-Flow detention time= 0.3 min calculated for 0.051 al (1ooo/o of inflow)Storage and wefted areas determined by Inegular sections 8,229.50 8,229.80 0 100 0.0 50.0 0 199 0 10 0 10 Middle Creek Housing Type Il 24hr Rainfall=2.40" - 100Yr Event Prepqred by Peak Civil Engineering, Inc. page 16 HvdroCAD@ 6.00 s/n 002040 @ 1986-2001 Applied Microcomputer Svstems 3/19/2003 lrimary OutFlow (Free Discharge)L1=Orifice/Grate L2=Orifice/Grate # Routino Invert Outlet Devices1 Primary 8,229.50' 0.12'x 0.55' Horiz. Odfice/Grate X 20.(X1 C= 0.6002 Device 1 8,229,50' 2.75'x 0.33'Vert Orifice/Grate C= 0.600 Reach 111= 111 I I I I I I t t I I I I I I I t I I I Inflow = 3.07 cfs @ 11.94 hrs, Volume= Outflow = 3.07 cfs @ 11.% hrs, Volume= 0.129 aI 0.129 af , Aften= 0%, Lag= 9.1 r'n Routing by Stor-lnd method, Time Span= 0.0G'20.00 hrs, dt= 0.01 hrs Max. Velocity= 12.4fps, Min. Travel Time= 0.1 min Avg. Velocity = 3.5 fps, Avg. Travel Time= 0.4 min Peak Depth= 0.35' Capacity at bank full= 11.50 cfs fnlet lnvert= 8,224.33', Outlet Invert= 8,216.00' 12.0" Diameter Pipe n= 0.013 Length= 80,0' Slope= 0.1M'l'f Middle Creek Housing Type ll 24hr Rainfall=2.40'- 100 Yr Event Prepared by Peak Civil Engineering, Inc. Page 17 HvdroCAD@ 6.00 s/n 002040 @ 1986-2001 Applied Microcomputer Svstems 3/198003 Reach 11211 Hydrograph Plot Reach 212 21 Hydrcgraph Plot eo 'C'ii Middle Creek Housing Type ll 24hr RainfalF2.41'- 100 Yr Event Prgpqred by Peak Civil Engineering, Inc. page 18 HvdroCAD@ 6.00 s/n 002040 @ 1986-2001 Applied Microcomputer Svstems 3/19D003 Reach 31: 31 Hydrograph Plot 8910 11 12 13 nme (houE) Reach 41:41 0.1 0.1 8 910 11 12 Tlme (hours) I I I ,p(, t iT o !ott 7 4 0.7 U. 0.6 o.4 0. Hydrograph Plot Middle Creek Housing Type ll 24-hr Rainfall=2.40'- 100 Yr Event frqpqrg_d by Peak Civil Engineering, Inc. page 19 HvdroCAD@ 6.00 s/n 002040 @ 1986-2001 Applied Microcomputer Svstems 3/19/2003 Reach 5l:51 Hydrograph Plot E 910 11 12 11 TImo (hours) Reach 51,5: 51.5 Hydrograph Plot .E oii a(t 3o E 9 10 11 lime (hours) 12 13 14 15 16 17 18 19 20 Middle Creek Housing Prepared by Peak Civil Engineering, Inc. Type ll 24hr Rainfalts2.4l'- 100 Yr Event Page 20 I I I HvdroCAD@ 6.00 s/n 002040 @ 1986-2001 Applied Microcomputer Svstems 3/19/2003 78910 11 12 13 14 15 16 17 lE1920 Tlme (houEl Reach 56: 56 Hydrograph Plot o o Iotr 8 9 10 'tl 12 Time (hours) Reach 52:52 Hydrograph Plot 13 14 15 15 17 1E 19 20 Middle Greek Housing lp1:!ly P-eak Civit Engineering, Inc. Type ll 24-hr Rainfalt=2.40, - 100 yr Event ,2(, Iotr Reach 61: Ol Hydrograph Plot 8910 11 12 Tlme (houe) Reach 71=71 Hydrograph Plot E 910 11 tz 19181716'1513 I I I t I I a(, G' E Tlme (hours) Middle Creek Housing Type ll24hr Rainfalle2.4l'- 100Yr Event Prepared by Peak Civil Engineering, Inc. Page22 HvdroCAD@ 6.00 s/n 002040 @ 1986-2001 Applied Microcomputer Svstems 3/19f2003 Reach 822 82 Hydrograph Plot Reach 81: 81 Hydrograph Plot 12 13 14 15 16 17 18 19 20 Middle Creek Housing frgnqred by Peak Civil Engineering, Inc, Type ll 24hr Rainfall=2.40'- 100 yr Event Page23 Reach 83:83 Hydrograph Plot .o a, otr Reach 9{: 91 Hydrograph Plot Middle Creek Housing Type ll 24hr RainfalF2.41" - 100 Yr Event frgpqrg!_by Peak Civil Engineering, Inc. page24 HvdroCAD@ 6.00 s/n 002040 @ 1986-2001 Applied Microcomputer Svstems 3/19/2003 Reach 101: 101 Hydrograph Plot 67 t I T g o I:Ilt 8910 11 12 13 Tlme (hourr) Reach 111:111 Hydrcgraph Plot 8910 11 '12 Time (hours) 14 15 16 17 18 19 ti o tolt i" : : : i : l .l l.l !:i I I I I I II 1918171615t? \ Appendii H Drainage Details -/ I I T T T I t I T T I I I T T T I I I 13 Curb Grota lf A Riser 13 Rcquired Th! Bosr lB Pourad Wrth A ShiP-LoP Joint 2 Ton P-52 SL 21' x 24' x 31 Knockout X 50 X 3' Knockout (Typlcol Opposltc (Iyplcol Oppositc Sidc) ttlrlro-lnl ltl[ill0t | | I t[[[[[il | | l|!ru!lu I n"fiil'. :HB';8n'#'o 600 lbr. NO: 72o135o SINGLE CURB 'NIET PROJECTNAME: MIDDLE CREEK AFFORDABLE HOUSING DATE: 3-2003 SCALE: N/A PROJECTNo.: 1039 TYPE 13 CURB INLET FIGURENo.: DlFEAI( I.A}O COiRLTANIq 1€. PEAK CIVL EIFIEERI{O, TG.g,,o{0{4l Flx9o+t{l GDLEta!FoELcF Y&COIE o It, .=x=g ?b ')i; FrontVlew Frome With Type 16 Grotc Stsp3 O12- O.C. 2 Ton P-52 SL Anchors Number Rcq'd Voriea "x30"x3' Knockout (Typicol Opposite Side) 'x 24'X 3' Knockout (Typicol Opposlte Side) Plan Meu/ (F&c Not Shown For Clority) Slde View FAtffirt{tt6t v&cotF PROJECTNAME: MIDDLE CREEK AIIFORDABLE HOUSING DATE: 3-2003SCALE: NiA PROJECTNo.: 1039 FIGURENo: D2 I T I I t t t I I I I I I t I I t I T T T I t t I t I I t I I I I I I I I I $orr*. r,t n' fifiFOn {E ' DMEton Elerratlon Vl6w lcc.a Op.tJr{. sANp/otL SEPARATOR PROJECTNAME:TITLE: MIDDLE CREEK AIIFORDABLE HOUSING DATE: 3-2003SCALE: NiA PROJECTNo.: 1039 SAND OIL SEPARATOR Plan vlew ialof{ c Prcfl'v IODE Nq riA.?'UAIER OEPIH Dtu !c'BT t.DIT ?Dtr' ?hE6tfi &t0 aas-so d-0't-{|t-f y-o'{-r0'7.53! 500 |ltJ-50 14'1r'-d /4 t-f v-d t-to'lt.Gtl EO 4ll{-{O {-{'tl'-d /-c /-t c4 t-ro't+0:I 1m {tG,50 d-0'tr'-d t-f t-t a'-d tlJSt t250 attS-!o {-d '-O'14'1'-t 5'{'J-10'Itr,ttt 1lo0 a FSo {-f '{t't-o'g-t d-o'5-to'tl,t!t ttoo dtG{t 14 1r'-d f{5.-t'd4 t-{.2qctl 200 a t-{o 14 I t'-o'd-o't-t 7-o'6'-rf 21J5r &al|.o 6'-f tz-6-14 t'-f d-0'5'-rd 2/+.5i!D so at2t-o d-{'rt4't-t'3-d 7-4'd-lo'zr,e 3600 Itr-t!I t'-o'12'-0-J'-t'l'-10f 3'-0'{-ro'n,&n 50m flttH 11'-0't7'-0'3'-!'t-ro'6'-0'4'-10'5r,7D,2 !66 t .a I t'-0''t7-o',+'-0'1-t 5'-9't-1'l .to,93t tos l||5-{0 I t'-o'tt'-o'14 1-t 5'-9't-f 4,1lf2 7m0 ll,,'{I r'-o't-t ,l'-0'1-2'5'-f ,t-ld ,15,6l:! !o00 fitt-sD 't i'-o't4'a'-E'6'-er g'-7'49.700 3000 tlso 2l-0.f4 f-t 5'-o'3'-7'51,45t t0@o fl+9 rt'-f 29'4 ,a -e'J-d 5'-o'5'-7"cl,94e @O t1DS0 tl'-d 5a'-f 4'-o'l-2'3{'a'-f m,c2 FEAI( |.TD COig,LTANTE. Nc. FEAK CTVL ETGIEE q it' dO{Ct'}* F^ISDiG{C ELTnIEOEI.€I YA.CO'F FIGURENo.: D3 Sepp Oru AprE€ce{o?- A lfr.rugr Srzrs c, Cxuc. Des r 6N FLor^l = L.5 c$s ( z- Ye Et esr) tmp#1. txt uanning e'ipe calculator I I I I t T I I I I I T I I I I t T I Given Input Data: shape .solving for .. D'r ameter F'l owrate slope . Manning's n .... Computed Results: Depth . wetted Area . ci rcu'l ar oepth of p'low 0.8333 ft 2.5000 cfs 0.0060 ftlft 0.0090 0.5990 ft 0.5454 ft2 0. 4885 1.9294 2.6L79 5. 1182 0.2532 83.8831 2.4512 4.4945 0.7434 0.0043 4.5872 0.5450 1.9625 0.2777 0.8333 1.0903 1.1152 1.2316 supercri ti ca1 Area. wetted Perimeter Peri meter ve'l oci tvtvdrau'lic nadius P-e rcent Fu] 'l . ru'l I f'low F'lowrate rul I fl ow ve'l oci ty '. critical rnformation cri ti ca'l depth .critical s'lbpe.critica'l ve'locitvcritica] area,,:,....critical perimeter cri ti ca'l hydrau'l i c radi uscritica'l top widthSpecific enbrgy Mlnlmum energy Froude number P'low condition .. ft2ftft tP.ft % cfs fps ftIt/ttrps ft.2ftftftftft Page 1 \ i trrl : :I Appendix I Stonn Sewer Plan