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Home My WebLink About4.0 Drainage StudyI I I tl lr lr lr lr l: l: l: li DP'/4^^::srwY MNCH AT COULTER CREEK GARFIELD COWTY, C OLOMDO SUBMTTED TO: l GARFIELD COUNTY BUILDING & PLA}'INING DEPARTMENT lo9 8rH srREET, SUITE loo-c CTBNWOOD SPRINGS, COIORADO 8 1 601.3660 PREPARED BY: S opris Engineering ;, LLC 502 ManL Suite A3 Carbondale, CO 81623 SE Job No. 21185.01 February 7,2003 Yancy Nichol, P.E. ffibffii't ilssu"+ i $rz'l'oz ,.'kE John E. Kornfel4 P.E. 502 Main Street'Suite A3 . Carbondale, C0 81623 ' (970) 704-0311 ' Fax (!lQM f!13 SoPRIS trcliltERlnG 11G civil consultants I I rlI lr lr lr l: l: l: TABLE OF CONTENTS SECTION 1.0 INTRODUCTION A}iD PT.JRPOSE SECTION 2.0 EXISTING DRAINAGE CONDITIONS 2.1 Onsite Hydrologic Conditions 2.1.1 100-Yeir Floodplain Affecting Orsite Developme'nt 2.1.2 Existing Runoff Rats 2.2 Offsite HYdrologic Conditions SECTION 3.0 DEVELOPMENT DRAINAGE PLA}I 3.1 Grading and Finished Floor Elevations of Permanent shuctures 3.2 Detention 3.3 Culverts SECTION 4.0 A}.IALYSIS METHODS AI{D ASSIJMPTIONS SECTION 5.0 SUMMARY Exhibit 1-VicinityMap Exhibit 2 - Existing Drainage MaP Exhibit 3 - Dweloped Drainage Plan Exhibit 4 - Weighted Curve Numbers by Lot rc 3 Drainage calculations and Hydrologic Data for Existing conditions Culvert Calculation Worksheets Rainfall Precipitation Data 3 3 3 4 4 Appendix I Appendix II Appendix III I t I I t I t T I T I T t I I I I t I 1.0 INTRODUC'TION ADID PI,IRP(OSE The proposed Ranch at Coulter Ranch is presently located in the unincorporat{ areas of Garfield Couity.' The site lies adjacent to County Road 115, about I I miles southeast of Glenwood Springs, Colorado. The property encompasses 478 acres. Refer to Exhibit I - Vicinity Map. The dwelopmelrt consists of twenty-six (26) single-family reside,ntial lots. Lot aoreage varies from 4.05 acres to 11.27 acrw. The lots will be served by a two lane (22-foot wide all weather surface) roadway. The remainder of the site will remain as oPen sPace. The purpose of the d{ainagestudy is threfold: o First, tosrufuatc ony &ainage imPasts upon the exirting environnent wi& the propoood site irnprovemcnts. o Secon4 to insuro trat deuolopod runoffratc leaving tho site aro of thc same magnitude and location as historic oonditions. . Thir4 to rnoet compliance of approved drainage standards per Land Use Regulations' of ffield County. 2.0 E)ilSTING DRAINAGE CONDITIONS A}[D FEATT'RES 2.1 Onsite Hydrologic Conditions The site consists primarily of pasture and agricultural use activities. The orrerall lard slopes to tho nstfr. A ridge runs along the south and west boundary of the site. Slopes across the eiisting terrain vary from 2 to more than 15 percent. Areas of steeper slopes occur near the south and west areas of the site. The flatter slopes occur near the northoast corner and cental portion of the site. Coulter Creek lies near the site's east boundary and Cattle Creek also drains towards the site's southeast corner and then southerly and westerly. Cattle Creek is a tributary to the Roaring Fork River and Coulter Creek is a tributary to Cattle Creek. Neither creelg however, enters the site. ftcro ans reveral concentration points where runoff leaves the property. However, of the total number of small watershed basins, only one basin is large in area. Runofffrom the largest drainage exits the site near the northeast corner of the site and then drains into Coulter Creeh approximately 1000 feet to the east. 2.1.1 100-Year Floodplain Affecting Onsite Development This site is not within a designated 100-year floodplain of any major drainage. I r'FtY-Et-aaE3 'IE:4E I I! tj I T{ I T F. rill I T t T I I T I T I I Victnlty l{ap r.t.& Illc Pod tl Prt C.t Et \ ) ( I( lCrrbgadrtc T I T I I lr lr lr lr lr l: l: lr t: t: 2. 1.2 Existing Runoff Rates Runoffacross this site consists of a combination of sheet flow, shallow concentrated flow, and channelized flow. As sheet flow becomes concentrated surface runoffgenerally drains towards Coulter Creek Refer to Exhibit 2 - Existing Drainage Map. Runoffcurve number '76' represents the majority of the existing hydrologic conditions. This curve number represents a weighted value for pasture land in good and fair conditions with *C" hydrologic soils. The estimated time of concentration for the stormwater to travel from the most hydraulically remote part of the drainage area to the point of ooncentration near the northeast corner of the site is 20 minutes (25 yegrr - iA nour design storm). The time ofconcentration consists of sheet flow, shallow concentraied flow, and ctranneted flow. Please refer to Section 4.0 Analysis Methods and Assumptions for the details pertaining to the mettrods and input parametas. Ten (10) drainage basins are identified within the site's boundaries. They are identified on n*ni6it i - n*iJting Drainage Map. The peak discharges for each drainage area for the 25-year d€sigr storm include: Basin Drainage Area (acres) t 270.54 2 14.68 3 49.274 13.35 5 15.50 6 46.407 24.128 24.6s9 12.08 10 8.ll 25Yeprr -24 Hour Desisr Storm (cfs) 134 t4 47 t3 15 30 19 l6I 7 Hydrologic data calculations for the onsite existing conditions are included in Appendix I. 2.2 Oftite Hydrologic Conditions Due to the position of this site on the landscape, the site is not subject to offsite drainage. The ridge that traverses the site near the south and west boundaries is the higlr point and runoffdrains either to the north (Coulter Creek watersheQ or the southwest (Cattle Creek watershed). cP9 EXTTT. EXTSruNG DA T t t t I I t I T I I I I I T T T I I I I I I I t t I T I t I t I t I I t I 3.0 DEVELOPMENT DRAINAGE PLAI\i The Ranch at Coulter Creek developmant consists of a low-density residential community. Twenty-six single-family residential lots are proposed. Lot areas vary from 4.05 acres to 11.27 acres. Approximately 32.5% of the total site area consists of lots. About 17.87 acres (3.7%) ot the site includes roadways, with the remainder of the site remaining as open space. Refer to Exhibit 3 - Developed Drainage Plan. Run0ffwill,not significantty increase. For estimating increases in runoffpotential with lot developmen! the following assumptions are used: RoofArea Driveway =18'x50'Sidewalk =3'x50' = 3,000 SF = 900 SF= 180 SF Patio = 12'x 12'and l0'x l0' = 244 SF Total Impervious Grass/Landscaping = 50' x 50' (front) Natural =4,3245F CurveNumber 98 plus 50' x 30' (rear) = 4,000 SF CurveNumber 74 'Remainder of Lot CurveNumber 76 Based on tle lot acreage, the above assumptions increase the weighted curve number potential by less than l. Exhibit 4 shows the weighted curve number upon development for each lot. h&,&{' ttc iurignificart increase (in light of assumptions used to get to this quantifioation), runoffwill romain unchanged with development of eaoh rcidential lot. Hrooxisting &uin4e basin areas and discharge point locations will not ohange as a result.of this dedopmont. Sweral culverts are planned where roadways will cross natural drainages. Culvert locations and sizes are discussed below. j.I Grading and Finished Floor Elantions of Pemtanent Structures All finish floor elevations should be at least one and one-half (172) feet grade to the structure. No residential structures shall be located in natural drainago ways. 3.2 Detention the highest adjacent Basod upon no significant ircr€ase in runoffwith the derrelopment of this propocod. no detcdion is .\ S 9 12' l ttAlot-: G,)q UI rrl I I lcP I t I I I T I t I I T I I T T T lf ADS GULET s89"59',44',wffi G RAPHIC s ?50 SCALE 500 ( IN FEET ) I inch = 500 ft. cP2 @ EXHIT DEVELOPED Dfr N (qtrrt.( 5rri\NSe8 :x\' 6 -r.5 11 AGBff 4. PEAK RUNOFF RATES U NDER DEVELOPED COND/T'ONS RANCH AT COULTER CREEK CARBONDALE, COLORADO LOT # AREA Exlsting Developed(acres) Curve No. Curve No. Note: The developed weighted runoff curve number is based on the assumptions found in the Drainage Report. 76 76.276 76.2 76 76.476 76.4 76 76.5 76 76.5 7A 76.5 76 76.5 76 76.5 76 76.5 76 76.3 76 76.2 7A 76.376 76.4 76 76.3 76 76.276 76.3 76 76.4 76 76.3 76 76.3 76 76.4 76 74.5 76 74.476 76.4 76 76.476 76.4 9.31 9.71 5.47 4.60 4.37 4.19 4.47 4.43 4.42 4.47 6.39 8.24 6.88 5.40 6.65 11.27 7.47 5.49 6.46 5.80 5.28 4.05 4.91 5.36 4:s5 5.53 1 2 3 4 5. 6 7 I I 10 11 12 13 14 15 16 17 18 19 20 21 ?2 23 24 25 26 I T T I I I 3.3 Culverts Proposed culverts are shown on Exhibit 3. The proposed culverts are sized to convey runofffrom aZl-year desrgr storm. CulvertNo. ApproximateDrainagefuea (acres) 25Year Peak RunoffRate Diameter(cfs) (inches) 18 t2 t2 t2 t2 t2 15 t2 36 30 30 36 36 30 I 2 3 4 5 6 7 8 9 l0 ll t2 l3 l4 T T I I T I I I I t T T T T I T t T T * 1.8 2.6 0.9 1.3 2.2 3.2 1.8 39.1 23.2 22.t 62.3 53.1 24.3 Surface Type Existing Pasture with Fair Condition, "C" hydrologic soils * designates an unknown drainage area. A minimum l8-inch diameter culvert is proposed for this location. ImdCitioato the above oulvorts for roadways, each drivoway rnay also require a culvort. The peak runoffrates were estimated based on the Rational Metho4 assuming a l0-minute minimum time of concentration and a runoffcoefficient of 0.40. The culvert diameter is based on an approximate headwater depth of 1.5 times diameto. Culvert calculation worksheets are included in Appendix II. 4.0 AIYALYSTS METIIODS AI\D ASST'MPTIONS Hydroflow Hydrographs by Intelisolve was used for hydrologic calculations. This software implements the NRCS TR55 mettrod for estimating time of concentration oalculations and the SCS hydrograptrs for estimating peak runoffrates. Jhe design storm used for this analysis includes the 25-year frequency event and a 24-hour time duration. A total rainfall of 2.30 inches was used to simulate ttre ZS-year design storm. Runoffcurve numbers used to calculate the peak discharges include the following: * 2.8 4.0 1.4 2.0 3.4 4.9 2.8 60.2 35.7 34.0 95.9 81.8 37.4 Curve Number 76 I T I I I t I I T T I T T I I I t I T 76 98 74 Proposed Open Space in Fair Condition Proposed Asphalt & Impervious Surfaces Proposed Turfllandscaping in Fair Condition Hydrain software by Federal Highway Administration was used to estimate precipitation data. A copy of the data for this location is included in Appendix III. Hydrocalc Hydraulics by Dodson software was used to size oulverts for the 25-year storm. 5.0 ST]MMARY T?Eterults fiofi thig drainage study suggost that no long-terq adverse irnpscts to stormwsb" &dmf,p.erc aortictpated with the dwelopmcnt of the Ranch at Coulter Crrek. ';OCIAo pef disc,trargs will not increase measurably with dovelopment. Ifttorical diainage patterns will be maintsined. Complianco with Garfield County Drainage Sttndards will bc adhered. APPE}IDD( I DMINAGE CALCULATIONS AND HYDROLOGIC DATA FOR F-YISTING CONDITIONS I I lr lr lr lr l: l: l: I I t T I I I I t I I T I I I T t T t Hydrograph Summary Report Hydrograph descrlptlon SGS Runoff SCS Rund SCS Rund SCS Runoff SCS Runoff SCS Runoff SCS Runoff SCS Runoff SCS Runoff SCS Rund 136.44 14.09 47.28 12.81 14.tt 29.89 1E.61 15.88 7.78 7.09 566,414 28,814 %,707 %,203 fi,423 91,073 52,077 48,383 ?,3,710 16,979 Proj. file: Coulter Creek.gpw Return Period: 25 yr Run date: 02-06-2003 tlydrdov Hydrcgraphs by ln6bdrc Hycirograph Report Page 1 Hyd. No. 1 Area 1 Hydrograph type Storm frequency Drainage area Basin Slope Tc method Total precip. Storm duration = SCS Runoff = 25 yrs = 270.54 ac = 0.0% = TR55 = 2.30 in = 24 hrs Hydraflor Hydrographs by lntelisolw Peak discharge = 136.44 cfs Timeinterval = 5 min Curve number = 76 Hydrauliclength = Oft Time of conc. (Tc) = 21.8 min Distribution = TYPe ll Shape factor = 484 I I I I tl lr lr lr lr lr l: l: lr l: lr Hfirogr*h Vdwre. 566,414 cttf, Hydrograph Discharge Table Time .. Outflow(hrs cfs) Tlme - Outflow Time -- Outflow 11.67 11.83 12.00 12.17 12.33 12.50 12.67 12.83 13.00 13.17 13.33 13.50 13.67 13.83 14.00 14.17 14.33 14.50 14.87 14.83 15.00 15.17 15.33 15.50 15.67 15.83 16.00 $.17 16.33 16.50 16.67 16.83 17.00 17.17 1.98 21.92 102.96 136.31 91.63 4.97 30.25 24.49 21.19 19.05 17.fi 16.00 14.81 13.74 12.79 11.93 11.32 10.92 10.62 10.32 10.01 9.69 9.37 9.05 8.71 8.37 8.03 7.71 7.48 7.33 7.21 7.10 6.99 6.87 (hrs 17.33 17.50 17.67 17.83 18.00 18.17 18.33 18.50 18.67 18.83 19.00 19.17 19.33 19.50 19.67 19.83 20.00 20.17 20.33 20.50 20.67 20.83 21.OO 21.17 21.33 21.50 21.47 21.83 22.00 22.17 22.33 22.50 n.67 22.83 cfs) 6.75 6.63 6.51 0.39 a.27 6.15 6^O2 5.89 5.77 5.& 5.51 5.38 5.25 5.12 4.98 4.85 4.71 4.59 4.51 4.47 4.45 4.43 4.40 4.38 4.fi 4.U 4.32 4.29 4.27 4.25 4.22 4.20 4.18 4.15 (hrs 23.00 23.17 23.3i1 23.50 23.67 23.83 24.OO 24.17 -..End cfs) 4.13 4.11 4.08 4.06 4.03 4.01 3.99 2.98 I t TR55 Tc Worksheet Page 1 Hydraflorv Hydrographs by lntelisolte T I I I I T I I T I I T I T I I I Hyd. No. 1 Area 1 Storm frequency = 25 yrs Sheet Flow Manning's n-value Flow length Two-year 24-hr precip. Land slope Travel Time = 0.050 = 100.0 ft = 1.13 in = 2.0 o/o = 6.8 min Shallow Goncentrated Flow Flow length Watercourse slope Surface description Average velocity Travel Time = 1.0 min Channel Flow Cross section flow area Wetted perinreter Channel slope Manning's n-value Velocity Flow length Travel Time = 13.9 min Total Travel Time, Tc .......... = 21.8 min =200ft =4.0% = Unpaved = 3.23 fUs = 1.5 sqft =3.0ft = 3.0 o/o = 0.030 = 5.41 fUs = 4500.0 ft t Hycirograph Report Page 1I T I I I Hyd. No. 2 Area.2 Hydrograph type Storm frequency Drainage area Basin Slope Tc method Total precip. Storm duration = SCS Runoff = 25 yrs = 14.68 ac = 0.A Yo = TR55 = 2.30 in = 24 hrs Hydrafloit/ Hydr€raphs by lntelisoh€ Peak discharge = 14.09 cfs Timeinterval = 2 min Curve number = 76 Hydrauliclength = Oft Time of conc. (Tc) = 6.2 minDistribution = Type ll Shape factor = 484 Hydrograph Vdume = 28,814 cr.ft 0.30 0.30 0.30 t T T T T T I I I t I I T Hydrograph Discharge Table Time - Outflow(hrs cfs) 11.60 0.1811.67 0.6311.79 1.5511.80 3.28 11.87 7.?211.93 13.2412.AO fi.U12.07 4.4A 12.13 2.3712.20 2.21 12.27 2.0512.33 1.8812.40 1.6912.47 1.5012.53 1.3112.60 120fi.a7 1.16 12.73 1.1212.80 1.O712.87 1.0312.93 0.9913.00 0.9413.07 0.go13.13 0.8713.20 0.8513.27 0.8813.33 0.8013.40 0.7813.47 0.7513.53 0.7313.60 0.70 13.67 0.6913.73 0.6713.80 0.65 Time - Outflow Time - Outflow(hre cfs) Time .. Outflow(hrs cfs) 18.40 0.3018.47 0.2918.53 0.2918.60 0.29 18.67 0.29 18.73 0.2818.80 0.28 18.87 0.28 18.93 0.2719.00 0.27 19.07 0.2719.13 0.2719.20 0.2619.27 0.26 19.33 0.2619.40 0.2A 19.47 0.2519.53 0.2519.60 0.2519.67 0.2519.73 0.2119.80 0.2419.87 0.2419.93 0.2320.00 0.2320.07 0.2320.13 0.2320.20 0.2320.27 0.2320.33 0.2320.40 0.23 20.47 0.2320.53 0.2320.60 0.23 Coilinues on nert page... (hrs 13.87 13.93 14.00 14.O7 14.13 14.20 14.27 14.33 14.40 14.47 14.53 14.60 14.67 14.73 14.80 14.87 14.93 15.00 15.07 15.13 15.20 15.27 15.33 15.40 15.47 15.53 15.60 15.67 15.73 15.80 15.87 15.93 16.00 16.O7 cfs) 0.63 0.61 0.59 0.58 0.57 0.56 0.56 0.55 0.55 0.54 0.53 0.53 0.52 0.52 0.51 0.50 0.50 0.49 0.48 0.48 0.47 0.46 0.46 0.45 o.4 0.4 0.43 o.42 0.42 o.41 0.40 0.39 0.39 0.sa 16.13 16.20 16.27 16.33 16.40 16.47 16.53 16.60 16.67 16.73 16.80 16.87 16.93 17.00 17.07 17.13 17.20 17.27 17.3:l 17.40 17.47 17.53 17.60 17.67 17.73 17.80 17.87 17.93 18.00 18.07 18.13 18.20 18.27 18.33 0.38 0.38 0.37 0.37 0.37 0.37 0.36 0.36 0.36 0.36 0.36 0.35 0.35 0.35 0.35 0.34 0.34 0.34 0.34 0.33 0.33 0.33 0.33 0.32 o.32 0.32 o.32 0.31 0.31 0.31 0.31 I I I t I I I T I t I I I T I I I I I Ar-ea2 Hydrograph Discharge Table Time -- Outflow Time -- Ouifiow (hrs cfs) (hrs cfs) ragc z 20.67 0.22 20.73 0.22 20.80 0.22 ...EN20.87 0.2220.93 A,2221.00 0.2221.07 0.n 21.13 0.2221.20 0.2221.27 0.2221.33 0.2221.40 0.2221.47 0.2221.53 0.?221.60 0.2221,67 0.22 21.73 0.2221.80 O.?221.87 0.2,21.93 0.2.22.@ O.2222.07 0.2222.13 0.2122.20 0.2122.27 0.2122.33 0.21?2.40 0.2122.47 0.2122.53 0.2122.@ 0.212,.A7 0.212,73 0.2122.80 0.21?2.87 0.21n.93 0.2123.00 0.2123.07 0.2123.13 0.2123.20 0.2123.27 0.2123.33 0.2123.40 0.2123.47 0.2123.53 0.2023.60 0.2023.A7 0.2023.73 0.2023.80 0.2023.87 0.2023.93 0.20, 24.@ 0.20 TR55 Tc Worksheet Page 1 I T T t t I t I T I I I t t t I I t I HFraflol,v Hydrographs by lntelisol\€ Hyd. No. 2 Area 2 Storm frequency = 25 yrs Sheet Flow Manning's n-value = 0.050 Flow length = 50.0 ft Two-year 24-hr precip. = 1.13 in Land slope = 10.0 o/o Trave|Time........................,........i...... = 2.i min Shallow Goncentrated Flow Flow length =200ft Watercourse slope = 10.0 o/o Travgl Timg....r................................... = 0.7 min Channel Flow Cross section flow area = 1.S sqft Wetted perimeter = 3.0 ft Surface description Average velocity Velocity Flow length = Unpaved = 5.10 ft/s = 7.65 ft/s = 1600.0 ft Channel slope =6.0% Manning's n-value = 0.030 TotalTravel Time, Tc.......... = 6.2 min Hydrograph Report Page tI I I I t I Hyd. No. 3 Area 3 Hydrograph type Storm frequency Drainage area Basin Slope Tc method Total precip. Storm duration SGS Runoff 25 yrs 49.27 ac 4.0 o/o TR55 2.30 in 24 hrs Hydraflov Hydr€raphs by lntelisoh,e Peak discharge = 47.28 ds Timeinterval = 2 min Curve number = 76 Hydrauliclength = Oft Time of conc. (Tc) = 4.7 minDistribution = Type ll Shape factor = 484 Hydrograph Vdurne - 96,707 cufr t I I I I I T Hydrograph Discharge Table Time .. Outflow(hrc cfs) Time - Outflow(hrs cfs) Tlme - Outflow(hrs cfs) Tlme - Outflow(hrs ctu) 18.40 0.99 18.47 0.9818.53 0.9818.60 0.97 18.67 0.96 18.73 0.9518.80 0.94 18.87 0.93 18.93 0.92 19.00 0.91 19.07 0.9019.13 0.9019.20 0.89 19.27 0.8819.33 0.8719.40 0.86 19.47 0.85 19.53 0.84 19.60 0.8it 19.67 0.82 19.73 0.8119.80 0.80 19.87 0.8019.93 0.7920.00 0.7820.07 0.7720.13 0.7720.20 0.7720.27 0.7620.33 0.7620.40 0.7620.47 0.7620.53 0.7620.60 0.76 Continues on rrrxt page... 11.60 11.67 11.73 11.80 11.87 11.93 12.OO 12.07 12.13 12.20 12.27 '12.33 12.10 12.47 12.53 12.60 P.A7 ',2.73 12.80 12.87 12.93 13.00 13.07 13.13 13.20 13.27 13.33 13.40 13.47 13.53 13.60 13.67 13.73 13.80 13.87 13.93 14.00 14.O7 14.13 14.20 14.27 14.33 14.40 14.47 14.53 14.60 14.67 14.73 14.80 14.87 14.93 15.00 15.O7 15.13 15.20 15.27 15.33 15.40 15.47 15.53 15.60 15.67 15.73 15.80 15.87 15.93 16.00 16.O7 2.12 2.ffi 1.99 1.gr 1.91 1.89 1.87 1.85 1.83 1.81 1.79 1.77 1.75 1.73 1.71 1.69 1.47 1.64 1.62 1.60 1.58 1.55 1.53 1.51 1.49 1.# 1.4 1.42 1.39 1.37 1.35 1.32 1.30 1.28 16.13 16.20 16.27 16.33 16.40 16.47 16.53 16.60 16.67 16.73 16.80 16.87 16.93 17.00 17.07 17.13 17.20 17.27 17.33 17.40 17.47 17.53 17.60 17.67 17.73 17.80 17.87 17.93 18.00 18.07 18.13 1'8.20 18.27 18.33 1.27 1.26 1.25 1.25 1.24 1.23 1.22 1.22 1.21 1.20 1.19 1.18 1.18 1.17 1.16 1.15 1.14 1.14 1.13 1.12 1.11 1.10 1.10 1.09 1.08 1.O7 1.06 1.05 1.U 1.U 1.03 1.02 1.01 1.00 0.61 2.10 5.19 11.00 24.244.4 39.73 14.98 7.% 7.43 6.88 6.29 5.68 5.04 4.40 4.03 3.88 3.74 3.60 3.46 3.31 3,15 3.02 2.93 2.85 2.77 2.69 2.60 2.52 2.4 2.fi 2.30 2.24 2.18 I I I T I I ll lr lr lr lr lr lr lr lr lr lr lr tuea3 Hydrograph Discharge Table Time - Outflow(hrs cfs) 20.67 0.75 20.73 0.75 20.80 0.75 20.87 0.75 20.93 0.75 21.00 0.7521.07 0.75 21.13 0.7421.20 0.7421.27 0.74 21.33 0.74 21.40 0.74 21.47 0.74 21.53 0.74 21.60 0.73 21.67 0.73 21.73 0.7321.80 0.7321.87 0.73 21.93 0.73 2..OO O.7222.07 0.72 22.13 0.7222.20 0.72 22.27 0.72 22.33 0.72 22.40 0.71 22.47 0.712..53 0.71 22.60 0.712.s7 0.712..73 0.712..40 0.7122.87 0.704.93 0.7023.00 0.7023.07 0.70 23.13 0.7023.20 0.7023.27 0.69 23.33 0.69 23.40 0.6923.47 0.69 23.53 0.6923.60 0.69 23.67 0.6823.73 0.6823.80 0.6823.87 0.68 23.93 0.6824.00 0.08 Tlme - Outflow(hrs cfs) ...EN Paee 2 TR55 Tc WorksheetI T t T I I T t I I T t I I I t T I I Hyd. No. 3 Area 3 Storm frequency = 25 yrs Sheet Fiow Manning's n-value = 0.050 Flow length = CU.U TT Two-year 24-hr precip. = 1.13 in Land slope = 10.0 7o Travel Time........................r....... = 2.1 min Shallow Concentrated Flow Flow length = 200 ft Watercourse slope = 10.0 o/o Surface description = Unpaved Average velocity = 5.10 fUs Travel Time .,.............................. Channel Flow Cross section flow area = 1.5 sqft Wetted perimeter = 3.0 ft Channel slope = 6.0 % Manning's n-value = 0.030Velocity = 7.65 fUs Flow length = 900.0 ft Travel Time = 2.0 min Tota! Travel Time, Tc .............!.....,,... = 4.7 min = 0.7 min Hydraflolv Hydrographs by lntelisoh€ itycirograph Report Page t Hyd.No. 4 Area 4 Hydrograph type Storm frequency Drainage area Basin $lope Tc method Total precip. Storm duration SCS Runoff 25 yrs 13.35 ac U.U -/o TR55 z.su tn 24 hrs Hydraflor/ Hydr€r@hs by lntelisoh,e Peak discharge = 12.81 cftTimeintervai = 2 min Curve number = 76 Hydrauiiciength = Oft Time of conc. (Tc) = 4.t minDistribution = Type il Shape factor = 484 I T I I I I I I t t T I T I T T T t t 0.57 0.56 0.8+ 0.53 0.52 0.51 0.51 0.50 0.50 0.49 0.49 0.48 o.47 0.47 0.46 0./to 0.45 0.45 o.4 0.43 0.€ o.42 0.42 0.41 0.40 0.40 0.39 0.38 0.38 0.37 0.36 0.36 0.35 0.35 Hydrcgraph VdumE = 8,2(B ctfi Hydrograph Discharge Table Tlme -. Outflow(hrc cfs) 11.60 01711.67 0.5711.73 1.4111.80 2.98 11.87 6.5711.93 12.U12.00 10.7612.07 4.06 12.13 2.1512.20 2.01 12.27 1.8612.33 1.7112.10 1.54 12.47 1.3612.53 1.1912.60 1.0912,67 1.0512.73 1.0112.N 0.9812.87 0.9412.93 0.9013.00 0.8513.07 0.8213.13 0.7913.20 0.7713.27 0.7513.33 0.7313.40 0.7113.47 0.6813.53 0.6613.60 0.64 13.67 0.6213.73 0.6113.80 0.59 Tlme - Oufflow(hrs cfs) Tlme - Outflow(hrs cfs) 16.13 0.34 16.20 0.3416.27 0.3416.33 0.34 16.40 0.34 16.47 0.3316.53 0.33 16.60 0.3316.67 0.3316.73 0.3316.80 0.3216.87 0.3216.93 0.3217.00 0.32 17.07 0.3117.13 0.31 17.20 0.3117.27 0.3117.33 0.3117.40 0.3017.47 0.3017.53 0.3017.60 0.3017.67 0.2917.73 0.2917.80 0.2917.87 0.2917.93 0,2918.00 0.28 18.07 0.2818.13 0.2818.20 0.2818.27 0.2718.33 0.27 Tlme - Outflow(hrs cfB) 18.40 O.27 18.47 0.2718.53 0.2618.60 0.26 18.67 0.2618.73 0.2618.80 0.2518.87 0.2518.93 0.2519.00 0.2519.07 0.2519.13 0.2419.20 0.24 19.27 0.2419.33 0.2419.40 0.23 19.47 0.2319.53 0.2319.60 0.2319.67 0.?219.73 0.2.19.80 0.2219.87 0.2219.93 0.2120.00 0.2120.07 0.2120.13 0.2120.20 0.2120.27 A.2120.33 0.2120.40 0.2120.47 0.2120.53 0.2120.60 0.20 @ntinues on rcxt page... 13.87 13.93 14.00 14.O7 14.13 14.20 14.27 14.33 14.40 14.47 14.53 14.60 14.67 14.73 14.80 14.87 14.93 15.00 15.07 15.13 15.20 15.27 15.33 15.40 15.47 15.53 15.60 15.67 15.73 15.80 15.87 15.93 16.@ 16.07 I t t I I I I T I I I I t T T T I I I Na4 Hydrograph Discharge Table Elda , Time - Oufflow(hrs cfs) 20.67 0.20 20.73 0.20 20.80 0.2020.87 0.20 20.93 0.2021.00 0.2021.07 0.20 21.13 0.20 21.20 0.20 21.27 0.2021.33 0.20 21.40 0.2021.47 0.20 21.53 0.20 21.60 0.20 21.67 0.20 21.73 0.20 21.80 0.2021.87 0.20 21.93 0.202..OO 0.2022.07 0.20 22.13 0.2022.20 0.19 22.27 0.19 22.33 0.19 22.40 0.1922.47 0.'t9 22.53 0.1922.60 0.1922.67 0.1922.73 0.19 22.80 0.1922,87 0.19 22.93 0.19 23.00 0.19 23.07 0.19 23.13 0.1923.20 0.1923.27 0.1923.33 0.1923.40 0.1923.47 0.1923.53 0.19 23.60 0.1923.67 0.19 23.73 0.1823.80 0.18 23.87 0.18 23.93 0.1824.N 0.18 Timc -- Outiiow(hrs cfs) ...End TR55 Tc Worksheett I t I T t I I I I I I I I I I I I T Hyd.No. 4 Area 4 Storm frequency = 25 yrs Sheet Flow Manning's n-value = 0.050 Flow length = 50.0 ft Two-year 24-hr precip. = 1.13 in Land slope = 10.0 %TravelTime = 2.1 min Shallow Concentrated Flow Flow length'= 200 ft Watercourse slope = 10.0 o/o Surface description = Unpaved Average velocity = 5.10 fUs Travgl Timg r.....r...............................- = 0.7 min Channel Flow Cross section flow area = 1.5 sqft Wetted perimeter = 3.0 ft Channel slope = 6.0 % Manning's n-value = 0.030Velocity = 7.65 fUs Flow length = 650.0 ft Travel Time ...,.,..,.,..... = {.4 min TotalTravel Time, Tc = 4.{ min Hydraflorr Hydrographs by lntelisolte Hydrograph Report Page 1 Hydrdlory Hydrographs by lntelisolw Hyd. No. 5 Area 5 Hydrograph type Storm frequency Drainage area Basin $lope Tc method Total precip. Storm duration = SCS Runoff = 25 yrs = 15.50 ac = 4.0 o/o = TR55 = 2.30 in = 24 hrs Peak discharge = Time interval = Gurve number = Hydraulic length = Time of conc. (Tc) =Distribution = Shape factor = 14.87 ds 2 min 76 0fi 4 min Type ll 484 I T t I I I I T I I I t I T I t t I T l-t€rcgraph Vdume = 30,4f,! arR Hydrograph Discharge Table Time -- Outflow(hre cf5) 11.60 0.19 11.67 0.66 '11.73 1.63 11.80 3.46 11.87 7.62 11.93 13.9812.40 12.50 12.07 4.71 12.13 2.50 12.20 2.U 12.27 2.1612.33 1.98 12.40 1.79 12.47 1.58 12.53 1.3812.40 1.27 12.67 1.22 12.73 1.18 12.80 1.13 12.87 1.09 12.93 1.U13.00 0.99 13.07 0.9513.13 0.9213.24 0.90 13.27 0.87 13.33 0.8513.40 0.82 13.17 0.79 13.53 0.7713.60 0.7413.67 0.72 13.73 0.7113.80 0.69 Time - Outflow cfs) 0.67 0.65 0.63 0.61 0.60 0.60 0.59 0.58 0.58 0.57 0.56 0.56 0.55 0.54 0.4+ 0.53 0.52 0.52 0.51 0.50 0.50 0.49 0.48 o.47 0.47 0.46 0.45 0.45 0.4 0.43 0.42 0.42 o.41 0.40 Tlme - Outflow(hrs cfs) 16.13 0.40 16.20 0.40 16.27 0.39 16.33 0.39 16.40 0.39 16.47 0.3916.53 0.38 16.60 0.38 16.67 0.38 16.73 0.38 16.80 0.38 16.87 0.37 16.93 0.37 17.00 0.37 '17.07 0.37 17.13 0.36 17.20 0.36 '17.27 0.36 17.33 0.35 17.40 0.35 17.17 0.3517.53 0.35 17.60 0.34 17.67 0.34 17.73 0.34 17.80 0.34 17.87 0.33 17.93 0.33 18.00 0.33 18.07 0.33 18.13 0.32 18.20 0.32 18.27 0.3218.33 0.32 Time - Outflow(hrs cfs) 18.40 0.31 18.47 0.31 18.53 0.31 18.60 0.30 18.67 0.30 18.73 0.3018.80 0.30 18.87 0.2918.93 0.29 19.00 0.29' 19.07 0.28 19.13 0.28 19.20 0.28 '19.27 0.28 19.33 0.n 19.40 0.27 19.47 0.27 19.53 0.26 19.60 0.26 19.67 0.2619.73 0.2619.80 0.25 19.87 0.25 19.93 0.2520.00 0.2420.07 0.24 20.13 0.2420.20 0.24 20.27 0.2420.33 0.2420.40 0.2120.47 0.2420.53 0.2420.60 0.24 Continues on rcrt page... (hrc 13.87 13.93 14.00 14.07 14.13 14.20 14.27 14.33 14.40 14.47 14.53 14.60 14.67 14.73 14.80 14.87 14.93 15.00 15.O7 15.13 15.20 '15.27 15.33 15.40 15.47 15.53 15.60 15.67 15.73 15.80 15.87 15.93 16.00 16.07 I t I I t I I I T I I I t T t I I t I Area 5 Hydrograph Discharge Table Time - Outflow Time - Outflow(hrs cfs) (hrs cfs) 20.67 0.24 20.73 0.2420.80 0.24 ...EN20.87 0.2420.93 0.2421.00 0.2421.07 0.23 21.13 0.2321.20 0.23 21.27 0.2321.33 0.2321.40 0.2321.47 0.2321.53 0.2321.ffi 0.2321.67 0.2321.73 0.2321.80 0.2321.87 0.2321,93 0.2322.@ 0.2322.07 0.2322.13 0.2322.20 0.2322.27 0.23 22.33 0.23?2.40 0.2222.47 0.2222.53 0.2222.@ O.2222.67 0.n22.73 0.2222.W O.2222.87 0.2.22.93 0.2223.00 0.2223.07 0.2223.13 0.2.23.20 0.2223.27 0.2.23.33 0.2223.40 0.2223.47 0.2223.53 0.2, . 23.60 0.2223.67 0.2223.73 0.2123.80 0.2123.87 0.21 23.93 0.2124.@ O.21 Pagle 2 TR55 Tc Vrforksheet Page I I T I I I T I T t I I T I T I T I T I Hydraflorr Hydrographs by lntel'soh,€ Hyd. No. 5 Area 5 Storm frequency = 25 yrs Sheet Flow Manning's n-value = 0.050 Flow length = 50.0 ff Two-year 24-hr precip. = 1.13 in Land slope = 10.0 o/o Travel Time,r......................i....... = 2.1 min Shallow Concentrated Flow Flow length =200ft Watercourse slope = 10.0 o/o Surface description = Unpaved Average velocity = 5.10 fUs Travel Time ................ Ghannel Flow Cross section flow area = 1,S sqft Wetted perimeter = 3.0 ft Channel slope =6.0% Manning's n-value = 0.030 Velocity Flow length = 7.65 fUs = 600.0 ft = 0.7 min = 1.3 min = 4.0 min Hycirograph Report Page I t t I I t I T T I I l! Hyd. No. 6 Area 6 Hydrograph type Storm frequency Drainage area Basin $lope Tc method Total precip. Storm duration = SCS Runoff = 25 yrs = 46.40 ac = 0.0 o/o = TR55 = 2.30 in = 24 hrs H$raflov H$rographs by lntelisolv€ Peak discharge = 29.89 cfs Timeinterval = 5 min Curve number = 76 Hydrauliclength = Oft Time of conc. (Tc) = 14.8 min Distribution = Type ll Shape factor = 484 HyOrogreh Volurne= 91,(fii cuft Hydrograph Discharge Table I T T T I T I T Time - Outflow(hrs cfs) 1',t.67 0.75 11.83 7.39 12.00 29.89 << 12.17 18.35 12.33 6.65 12.50 5.2612.67 4.U 12.83 3.5113.00 3.17 13.17 2.85 13.33 2.U 13.50 2.4 13.67 2.26 13.83 2.1014.00 1.96 14.17 1.83 14.33 1.77 14.50 1.72 14.67 1.68 14.83 1.63 15.00 1.5815.17 1.5215.33 1.4715.50 1.4215.67 1.36 15.83 1.31 16.00 1.25 16.17 1.21 16.33 1.18 16.50 1.1716.67 1.1516.83 1.13 17.00 1.1117.17 1.09 Time - Outflow(hrs cfs) Time - Outflow(hrs cfs) 23.00 0.66 23.17 0.66 23.33 0.6523.50 0.65 23.67 0.65 23.83 0.64 24.OO 0.64 ...End 17.33 17.50 17.67 17.83 18.00 18.17 18.33 18.50 18.67 18.83 19.00 19.17 19.33 19.50 19.67 19.83 20.00 20.17 20.33 20.50 20.67 20.83 21.00 21.17 21.33 21.50 21.67 21.83 22.00 22.17 n,33 22.50 2..67 2..83 1.07 1.05 1.03 1.01 0.99 0.97 0.95 0.93 0.91 0.89 o.87 0.85 0.83 0.81 0.79 o.77 0.74 0.73 o.72 0.72 o.71 o.71 o.71 0.70 0.70 0.70 0.69 0.69 0.68 0.68 0.68 0.67 0.67 0.67 TR55 Tc WorksheeiI T T I I I T T I I I T T I I T I I I Hyd. No. 6 Area 6 Storm frequency = 25 yrs Sheet Flow Manning's n-value = 0.050 Flow length = 100.0 ft Two-year 24-hr precip. = 1.13 in Land slope = 2.0 Yo Travel Time ..........................,...r. = 6.8 min Shallow Concentrated Flow Flow length =200fi Watefcourse slope = 3.A o/o Surface description = Unpaved Average velocity = 2.79 fils Travel Time .................r...rt....r....r....... = i.2 min Channel Flow Cross section flow area = 1.5 sqft Wetted perimeter = 3.0 ft Ghannel slope = 3.0 % Manning's n-value = 0.030Velocity = 5.41 fUs Flow length = 2200.0 tt Travel Time .i.....r,,.,..,................. = G.8 min TotalTravel Time, Tc .......... = 14.8 min Hydraflor Hydr€raphs by lntelisoh€ I I Hydrograph Report Page t Hyd. No. 7 AreaT Hydrograph type Storm frequency Drainage area Basin $lope Tc method Total precip. Storm duration = SCS Runoff = 25 yrs = 24.12 ac = 0.0 o/o = TR55 = 2.30 in = 24 hrs Hydraflor Hydrographs by lntelisdre Peak discharge = 18.61 ch Timeinterval = 2 min Curve number = 76 Hydrauliclength = Oft Time of conc. (Tc) = 1 1.4 minDistribution = Type ll Shape factor = 484I I t T t I T I I l-ldrograph Volurte - 52,07 cr,rt I I Hydrograph Discharge Table Time -- Outflow(hrc cfs) Time - Outflow(hrs cfs) 1.17 1.14 1.10 1.07 1.05 1.03 1.O2 1.01 1.00 0.99 0.97 0.96 0.95 0.9'.1 0.93 0.92 0.91 0.89 0.88 0.87 0.86 0.85 0.84 0.82 0.81 0.80 0.79 o.77 0.76 0.75 0.74 0.72 0.71 o.70 Time - Outflow(hrs cfs) 16.17 0.6916.23 0.6816.30 0.6816.37 0.6716.43 0.6716.50 0.6716.57 0.6616.63 0.66 16.70 0.65 16.77 0.65 16.83 0.6516.90 0.6416.97 0.6417.03 0.63 ' 17.10 0.6317.17 0.6217.23 0.6217.30 0.6217.37 0.6117.43 0.61 17.50 0.6017.57 0.6017.63 0.5917.70 0.59fi.n 0.58 17.83 0.5817.90 0.58',7.97 0.5718.03 0.5718.10 0.5618.17 0.5618.23 0.55 18.30 0.5518.37 0.54 Time -- Outflow(hrs cfs) 18.43 o.il 18.50 0.5318.57 0.5318.63 0.5218.70 0.5218.77 0.5218.83 0.5118.90 0.51 18.97 0.5019.03 0.50 19.10 0.4919.17 0.4919.23 0.4819.30 0.4819.37 0.4719.4i! 0.4719.50 0.4619.57 0.4619.63 0.4519.70 0.45 19.77 0.419.83 0.4 19.90 0.4319.97 0.4320.03 0.4220.10 0.4220.17 0.4120.23 0.4120.30 0.4120.37 0.4120.43 0.4120.50 0.4'l20.57 0.4120.63 0.41 @ntinues on nert page... 11.63 0.21 13.9011.70 0.70 13.971'.t.77 1.79 14.0311.83 4.08 14.1011.90 8.82 14.1711.97 15.54 14.2312.03 18.61 << 14.3012j0 15.30 14.3712.17 10.21 14.4312.23 6.07 14.5012.30 4.08 14.5712.37 3.e4 14.6312.43 3.33 14.7012.50 2.99 14.7712.57 z.ffi 14.8312.63 2.39 14.9012.70 2.21 14.9712.77 2.09 15.0312.83 2.OO 15.1012.90 1.93 15.1712.97 1.85 15.2313.03 1.77 15.3013.10 1.69 15.3713.17 1.63 15.4313.23 1,57 15.5013.30 1.53 15.5713.37 1.4 15.6313.43 1.4 15.7013.50 1.39 15.7713.57 1.35 15.8313.63 1.31 15.9013.70 1.27 15.9713.n 1.24 16.0313.83 1.20 16.10 I I I I t I I I I t I I I I I T T T I AraT Hydrograph Discharge Table Time - Outflow Time .. Outflow(hrs cfs) 24.10 0.26 ...EN Pqe 2 (hrs cfs) 24.70 0.41 20.77 0.41 20.83 0.41 20.90 0.40 20.97 0.40 21.03 0.4021.10 0.40 21.17 0.4021.23 0.4021.30 0.4021.37 0.4021.43 0.4021,50 0.4021.57 0.40 21.63 0.4021.70 0.39 21.77 0.3921.83 0.3921.90 0.39 21.97 0.392..O3 0.3922.10 0.39 22.17 0.3922.23 0.3922.30 0.3922.37 0.39 22.43 0.3922.50 0.382,.57 0.382,.A3 0.38?2.70 0.382..77 0.38 22.83 0.382,90 0.382,.97 0.3823.03 0.3823.10 0.3823.17 0.3823.23 0.3823.30 0.37 23.37 0.3723.43 0.3723.50 0.37 23.57 0.3723.63 0.3723.70 0.37 23.77 0.37 23.83 0.3723.90 0.3723.97 0.37 24.03 0.35 TR55 Tc Worksheet Fage t I I I T t I I T T I t I I T I I I I I Hydraflov Hydrographs by lnlelisohie Hyd. No. 7 Area 7 Storm frequency = 25 yrs Sheet Flow Manning's n-value = 0.050 Flow length = 100.0 ft Two-year 24-hr precip. = 1.13 in Land slope = 2.0 o/o Travel Time ...............r = 6.8 min Shallow Goncentrated Flow Flow length =200fi Watercourse slope = 3.0 % Surface description = Unpaved Average velocity Travel Time i...........,.... = 2.79tlls Channel FIow Cross section flow area = 1.5 sqft Wetted perimeter = 3.0 ftChannelslope = 3.0 % Manning's n-value = 0.030Velocity = 5.41 fUs Flow length = '1100.0 ft Travel Tlme ................ Total Travel Time, Tc.......... = 1.2 min = 3.4 min = 1{.4 min Hydrograph Report Page t Hydraflor Hydrographs by lntelisolve Hyd. No. 8 Area 8 Hydrograph type Storm frequency Drainage area Basin Slope Tc method Total precip. Storm duration SCS Runoff 25 yrs 24.65 ac 0.0 o/o TR55 2.30 in 24 hrs Peak discharge = Time interval = Curve number = Hydraulic length = Time of conc. (Tc) = Distribution Shape factor 15.88 cfs 5 min 76 0ft 10.5 min Type ll 484 T I t I t I I I I t I I I T I T T T t l-Idrograph VolwrE - 48,3E0 cun Hydrograph Discharge Table Time -. Outflow(hrs cfs) 11.67 0.4011.83 3.93 12.OO 15.88 << 12.17 9.75 12.33 3.53 12.50 2.7912.67 2.1512.83 1.86 13.00 1.6813.17 1.5213.33 1.4013.s0 1.30 13.e7 1.2013.83 1.1214.00 1.U14.17 0.97 14.33 0.9414.50 0.92u.a7 0.8914.83 0.86 15.00 0.&415.17 0.81 15.tr1 0.7815.50 0.7515.67 0.7315.83 0.7016.00 0.6716.17 0.64 16.33 0.6316.50 0.6214.67 0.6116.83 0.60 17.00 0.5917.17 0.58 Time - Outflow(hrs cfs) 17.33 0.5717.50 0.56'17.67 0.55 17.83 0.Ar 1E.00 0.53 18.17 0.5218.33 0.5118.50 0.50 18.67 0.49 18.83 0.4719.00 0.46 19.17 0.45 19.33 0.419.50 0.4i119.67 0.4219.83 0.4120.00 0.3920.17 0.3920.33 0.3820.50 0.3820.67 0.3820.83 0.3821.00 0.3721.17 0.3721.33 0.3721.50 0.3721.67 0.3721.83 0.372,OO 0.3622.17 0.3622.33 0.36?2.50 0.362..67 0.3622.83 0.35 Time - Outflow (hrs 23.00 23.17 23.33 23.50 23.67 23.83 24.OO ...End cfs) 0.35 0.35 0.35 0.35 0.34 0.34 0.34 TR55 Tc Worksheet Page I t I T I I T T T I I t ! T I T I t I T Hydraflo,v Hydrographs by lntelisolre Hyd. No. 8 Area I Storm frequency = 25 yrs Sheet Ftow Manning's n-value = 0.050 Flow length = 100.0 ft Two-year 24-hr precip. = 1.13 in Land slope = 2.0 o/o Travel Time = 6.8 min Shallow Concentrated Flow Flow length =200ft Watercourse slope = 3.0 o/o Surface description = Unpaved Average velocity = 2.79 ftls Travel Time ...r.,...............r...!...... = 1.2 min Channel Flow Cross section flow area = 1.S sqft Wetted perimeter = 3.0 ft Channel slope = 3.0 % Manning's n-value = 0.030Velocity = 5.41 fUs Flow length = 800.0 ft Travel Time .....!....r..... = 2.5 min Total Travel Time, Tc.......... = 10.5 min Hydrograph Report Page I Hydrafloru Hydrographs by lntelisolve Hyd. No. I Area 9 Hydrograph type Storm frequency Drainage area Basin $lope Tc method Total precip. Storm duration = SCS Runoff = 25 yrs = 12.08 ac = 0.0% = TR55 = 2.30 in = 24 hrs Peak discharge = Time interval = Curve number = Hydraulic length = Time of conc. (Tc) = Distribution Shape factor 7.78 cfs 5 min 76 0ft 10.2 min Type ll 484 I I t I t I I I I I t I I I T I I I T Hydrograph Vdure- 23,710 anft Hydrograph Discharge Table Time * Outflow(hrs cfs) Time - Outflow (hrs cfs) 23.00 0.17 23.17 0.1723.33 0.1723.50 0.1723.47 0.1723.83 0.17 24.OO O.17 -..End Time -- Outflow(hrs cfs) 0.28 0.27 0.27 0.26 0.26 0.25 o.25 o.24 0.24 o.23 0.23 0.22 0.2. 0.21 0.20 0.20 0.19 0.19 0.19 0.19 0.19 0.18 0.18 0.18 0.18 0.18 0.18 0.18 0.18 0.18 0.18 0.18 0.17 o.17 11.67 11.83 12.00 12.17 12.33 12.50 12.67 12.83 13.00 13.17 13.33 13.50 13.67 13.83 14.00 14.17 14.33 14.50 14.67 14.83 15.00 15.17 15.33 15.50 15.67 15.83 16.m 16.17 16.3i, 16.50 16.67 16.83 17.00 17.17 0.20 17.331.92 17.507.78<< 17.674.78 17.831.73 18.001.37 18.171.05 18.330.91 18.500.82 18.670.74 18.830.69 19.00o.il 19.170.59 19.330.55 19.500.51 19.670.48 19.830.46 20.000.45 20j7o.4 20,33o.42 20.50o.41 20.670.40 20.830.38 21.000.37 21.170.36 21.330.34 21.500.33 21.670.31 21.830.31 2,W0.30 22.170.30 22.330.29 ?2.500.29 2,.670.28 22.83 TR55 Tc Worksheet Page I I I I I t I I T T I t I I I I I I T I Hydraflotr Hydrographs by lntelisolre Hyd. No. 9 Area 9 Storm frequency = 25 yrs Sheet Flow Manning's n-value Flow length Two-year 24-hr precip. Land slope Flow length Watercourse slope Surface description Average velocity Travel Time ........,....... ........ = 6.8 min Shallow Goncentrated Flow = 0.050 = 100.0 ft = 1.13 in = 2.0 o/o =200ft = 3.0 o/o = Unpaved = 2.79 ftls Travel Time = 1.2 min Channel Flow Cross section flow area Wetted perimeter Ghannel slope Manning's n-value Velocity Flow length Travel Time = 2.2 min TotalTravel Time, Tc = 10.2 min = 1,5 sqft =3.0ft =3.0% = 0.030 = 5.41 fUs = 700.0 ft Hydrograph Report Page t H$raflol Hydrographs by lntelisolte Hyd. No. l0 Area 10 Hydrograph type Storm frequency Drainage area Basin Slope Tc method Total precip. Storm duration SCS Runoff 25 yrs 8.11 ac 0.4 o/o TR55 2.30 in 24 hrs Peak discharge = Time interval = Curve number = Hydraulic length = Time of conc. (Tc) = Distribution Shape factor 7.09 cfs 2 min 76 0ft 8.7 min Type ll 484 t I I T I I t I t T I I I I I I I I t Hydrograph Discharge Table Time -. Outflow Time - Outflow Flyr,rograph Volume = 16,979 cufi Time - Outflow(hrc cfs)(hrs cfs) 11.63 0.1111.70 0.3611.77 0.8711.83 1.9211.90 4.11 11.97 6.7512.03 6.4112j0 3.75 12.17 1.U12.23 1.32 12.30 1.2212.37 1.1212.43 1.01 12.50 0.9012.57 0.8012.63 0.7312.70 0.69 12.77 0.6612.83 o.At12.90 0.6112.97 0.5813.03 0.5613.10 0.5413.17 0.5213.23 0.5013.30 0.49 13.37 0.4713.43 0.46 13.50 0.413.57 0.4313.63 0.4213.70 0.41 13.77 0.4013.83 0.38 (hts cfs) 13.90 0.3713.97 0.3614.03 0.35 14.10 0.3414.17 0.3414.23 0.3314.30 0.3314.37 0.33 14.43 0.3214.50 0.32 14.57 0.32 14.63 0.3114.70 0.31 14.77 0.3014.83 0.3014.90 0.3014.97 0.2915.03 0.2915.10 0.2915.17 0.28 15.23 0.2815.30 0.2715.37 0.2715.43 0.2715.50 0.2615.57 0.2A15.63 0.2515.70 0.2515.77 0.2515.83 0.2415.90 0.2415.97 0.23 16.03 0.2316.10 0.23 Time - Outflow(hrs cfs) 16.17 0.2,16.23 0.2216.30 0.2, 16.37 0.2216.43 0.n. 16.50 0.2216.57 0.2216.63 0.21 16.70 0.2116.77 0.21 16.83 0.21 16.90 0.21 16.97 0.21 17.03 0.21 17.10 0.20 '17.17 0.2017.23 0.20 17.30 0.2017.37 0.2017.43 0.20 17.50 0.20 17.57 0.1917.63 0.19 17.70 0.19 17.77 0.1917.83 0.19 17.90 0.1917.97 0.19 18.03 0.1818.10 0.1818.17 0.18 18.23 0.18 18.30 0.18 18.37 0.18 18.€ 0.17 18.50 0.1718.57 0.1718.63 0.1718.70 0.17 18.77 0.1718.83 0.1718.90 0.16 18.97 0.1619.03 0.16 19.10 0.16 19.17 0.16 19.23 0.16 19.30 0.1519.37 0.1519.43 0.1519.50 0.15 19.57 0.1519.63 0.1519.70 0.1419.77 0.1419.83 0.1419.90 0.1419.97 0.1420.03 0.1420.10 0.1420.17 0.1320.23 0.1320.30 0.1320.37 0.1320.43 0.1320.50 0.1320.57 0.1320.63 0.13 @ntintteson rr,rt pqe... I I I t T T I T T T I I I T t T I T T Area 10 Hydrograph Discharge Table Time - Outflow Time - Outflow(hrs cfs) ...End (hrs cfs) 20.70 0.13 20.77 0.13 20.83 0.1320.90 0.1320.97 0.1321.03 0.1321.10 0.1s 21.17 0.1321.23 0.1321.30 0.1321.37 0.1321.43 0.1321.50 0.1321.57 0.1321.63 0.1321.70 0.1321.77 0.13 21.83 0.1321.90 0.1321.97 0.1322.03 0.1322.10 0.1322.17 0.1322.23 0.1322.30 0.1322.37 0.1322.43 0.1322.50 0.1322.57 0.12n.63 0.12n.70 0.122,.77 0.1222.83 0.1222.90 0.122,97 0.1223.03 0.1223j0 0.'1223.17 01223.23 0.1223.30 0.1223.37 01223.43 0.1223.50 0.1223.57 0.1223.63 0.'.1223.70 0.1223.77 0.1223.83 0.1223.90 0.1223.97 0.1224.03 0.11 TR55 Tc VUorksheet Page 1I I t I I T I I T I t I T I I T t I Hydraflor Hydrographs by lntelisohe Hyd. No. 10 Area 10 Storm frequency = 25 yrs Sheet Flow Manning's n-value = 0.050 Flow length = 100.0 ft Two-year 24-hr precip. = 1.13 in Land slope = 2.0 o/o Travgl Timg................................r....... = 6.8 min Shallow Goncentrated Flow Flow length =200ft Watercourse slope = 3.0 o/o Surface description = Unpaved Average velocity = 2.79 ftts Travel Time = i.2 min Channel Flow Cross section flow area = 1.S sqft Wetted perirneter = 3.0 ft Channel slope = 3.0 o/o Manning's n-value = 0.030Velocity = 5.41 fUs Flow length = 200.0 ft Travel Time = 0.G min TotalTravel Time, Tc .......... = B.Z min APPENDX tr C ULYERT CALC U LA TI O N WO RKS H E ETS T t I I I I I T t I I T I I I I I I I I t PIPE CULVERT ANATYSIS COMPUTATION OF CUI,VERT PERFORMANCE CURVE May 8, 2002 PROGRAM INPUT DATA DESCR]PTION VAIUEI I T T I Culvert Diameter (ft) FHWA Chart Nurnber. FHWA Scale Nurnber (T)pe of Culvert Entrance) Mannlng's Roughness Coefflcient (n-val.ue) Entrance T,oss Coefficient of Cul-vert Openlng Culvert Length (ft).. Invert Elevatlon at Dorrnstream end of Culvert (ft).. Invert ELevation at Upstream end of Culvert (ft).. Culvert Slope (ft/fX) I iStartlng Flo!, Rate (cfs). Incrernental Flow Rate (cfs) Ending Flow Rate (cfs). Startlng Tailwater Depth (ft) .. Incremental Tailwater Depth (ft) .. Ending Tailwater Depth (ft) .. 1.0 1 3 0.012 o.2 30.0 100. 0 100.15 0.005 1.0 1.0 11.0 0.0 0.0 0.0 t I Flow TailwaterRate Depth(cfs) (ft) COMPUTATION RESULTS Headwater (ft) NormalInlet Outlet DepthControl Control (ft) Depth at OutletOutlet Veloclty ' (ft) (fPs) Critical Depth(ft) I 1.0 2.0 3.0 4.0 5.0 6.0 7.0 8.0 9.0 10.0 11. 0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.58 0.88 1.18 1.51 t.91 2.54 3.2t 3.98 4.85 5.83 6. 91 0.0 0.9 1. L8 1.18 1.45 1.7{ 2.O8 2.46 2.89 3.3? 3.9 0 .42 0.64 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 o .42 0.6 0.7 4 0. 85 0.92 0. 95 0. 98 0. 99 0. 99 0. 99 1.0 0 .42 0.6 0.74 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 3.2L 4.O4 4.',8 5.09 6. 37 7.64 8.91 10.19 11.4 5 LZ. l5 14 .01 I T T I I I HYDROCAIC Hydraulj.cs Dodson & Asgoclates, Phone: (2811440-3787, All Right$ Reserved. for Windows, Version 7.2a Copyrlght (c) 1995Inc., 5629 FM 1960 West, Suite 314, Houston, TX 77969 Fax : ( 2 8 1 ) 4 4 O- 47 42, Errai 1 : software8dodson-hydro . com I I I I I T I PIPE CUTVERT AI{ATYS]S COMPUTATION OF CULVERT PERFORMANCE CURVE May 8, 2002 PROGRN' INPUT DATA DESCRIP?ION VATUE cuLvert Diameter (ft).. L'25 FHWA Chart Nunber. 1 FHWA Scale Nunber (TyPe of Culvert Entrance) r Manning's Roughness L-oefficient (n-va1ue) O '012 Entrance Loss Coefficlent of Culvert Opening O'2 Culvert l,,ength (ft) .. 30'0 Invert Elevation at Downstrearn end of Culvert (ft) " 100'0 r ^A t EInvert Elevation at Upstreal end of Culvert (ft) " ruu"rJ culvert $lope (ftlft) 0'005 starting Elow Rate (cfs). Incremental. Flow Rate (cfs) Ending fl.o!, Rate (cfs) . I starting Tallwater DePth (ft).. I Increnent,al Tailwater Depth (ft).. 1.0 1.0 11 .0 0.0 0.0 0.0 COMPUTATION RESUITS FIow Tailwater Headwater '(ft) Rate. Depth fnlet Outlet(cfs) 1ft) control control Nornal Critical DePth at Outlet Depth DePth outlet VelocitY titl (ft) (ft) (fPs) 0.38 0.39 0. 38 3.161.0 2.0 3.0 , 4.0 5.0 ,5.0 ?.0 8.0 9.0 10.0 11.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.54 0. 0 0.79 0.0 1.0 1.04 t.zt L.23 1.43 1.42 1.62 1.53 1.89 1.41 2.2L L.51 2.56 1 .73 2.96 1. 9 3.{1 2.08 0.55 0,s50.7 0. ? 0.55 3.82 0.7 4.27 o. 85 0.81 0. 81 4 .16 1.04 0.91 1.04 4.59 L.25 0.99 0.99 5.?5 L.25 1 .05 1.25 5 .7 L.25 1 .11 L.25 5.52 L.25 1.15 L.25 7 -33 L.25 1.18 L.25 8.1s t.25 !.2 L.25 8.96 I I I I I I I I I I T HYDROCALC Hydraullcs Dodson & Associates, Phone: (2811 440-3181, A]1 Rlghts Reserved. for I{indows, Version 1.2a Copyrlght (c) 1996 rnc., 5629 i'!{ 1960 West, sulte 314, Houston, TX 71069 Fax: (281) 440-41 42, Email :software0dodson-hydro' com t t T t I I I T PIPE CULVERT A]iIAIYSIS COMPUTATION OF CULVERT PEREORMANCE CURVE I'lay 8, 2002 -==*-==a*===-Bt-=*sE=*=g====E-=--E=58=ECr=-=-==E--=---aE==--E--===EA-====--t-= PROGRAM INPUT DATA DESCRIPTION Culvert Diameter (ft) . . PHWA Chart Nunber. EHWA Scale Nurnber (T]rpe of Culvert Entrance) Manning's Roughness Coefficient (n-value) Entrance Loss Coefficient of Culvert @ening.Culvert Length (ft).. Invert Elevation at Dounstream end of, Culvert (ft).. Invert Elevatlon at UPstrean end of Culvert (ft) .. Culvert Slope lft/ttl IStarting Flow Rate (cfs). Incremental EIow Rate (cfs). Ending Flow Rate (cfs). Startlng Tailnater Depth (ft).. Increnental Tallwater Depth (ft) .. Ending Tailwater Depth (ft).. 1..5 1 3 0.012 0.2 30.0 100. 0 100. 15 0.005 1.0 1.0 11.0 0.0 0.0 0.0 ! I Ffow TallwaterRate Depth(cfs) (ft) COMPUTATION Headwater (ft1 fnlet OutletControl Control RESULTS Normal Critical DePth at outlet Depth Depth Outlet VelocitY(ft) (ft) (ft) (fps) I I I 1.0 2.0 3.0 4.0 5.0 6.0 ?.0 8.0 9.0 10. 0 11.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.5 0.73 0.92 1. 09 1.25 1.4 1.55 1.73 1. 85 2. 05 2.26 0.0 0.0 0.0 0.0 0.0 1.43 1.57 L.72 1.87 2.04 1. 64 0.36 0.51 0. 53 0.75 0.86 0.95 L.02 1.22 1.16 1.5 1.5 3. 11 3.78 4.22 4 .55 4.79 5.11 5.44 5.19 6. 13 J. OO 6.22 0.36 0.370.51 0. s3 0. 63 0 .660.75 0.170.85 0.860.9? 0.951.08 L.02L.22 1.11.5 L .L6 1. s L.221.5 L.27 T t I I T I HYDROCAIC Hydraulics Dodson & Associates, Phone: (281)440-3787, All Rights Reserved. for l{indows, Version 1.2a Copyright (c) 1996 fnc., 5529 EIr, 1950 West, Suite 314, Houston, TX 77069 Fax: (281) 440-47 42, Enail : softwareGdodson-hydro. com T I t PIPE CUI,VERT ANAI,YSIS COMPUTATION OT CULVERT PERTORMANCE CURVE l(ay 9, 2002 I PROGRAM INPUT DATA VAIUEDESCRTPTNON t t I T Culvert Diameter (ft) .. FHWA Chart Number. FHWA Scale Nr:mber (Tlpe of Culvert Entrance) Manning's Roughness Coefficient (n-val'ue) Entrance Loss Coefficient of Culvert opening. Culvert lJength (ft).. Invert Elevation at Downstream end of Culvert (ft).. Invert Etrevation at UPstream end of Culvert (ft) . ' Culvert Sl-ope ltt /ttl Starting Elow Rate (cfs). Incremental Flow Rate (cfs). Endlng FIow Rate lcfs). Starting Tailwater DePth (ft). IncrementaL lallwater Depth (ft) .. Ending Tallwater Depth (ft).. 2.5 2 1 0.024 0.5 200.0 0.0 10.0 0.05 10.0 5.0 50.0 0.0 0.0 0.0 I T I I t COUPUTATION RESUI,IS Flor Tailwater Headwater (ft) Rate Depth Inlet outlet(cfs) (ft) Controf Control Normal Crltieal Depth at OuLieL Depth Depth Outlet Velocl (ft)(fr)(ft) 10. 0 15.0 20.0 ,25.0 30. 0 35. 0 40.0 45. 0 50.0 55.0 60. 0 0t0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 1.43 1.84 2.22 2.61 3.12 3.59 4.18 4 .85 5.59 6,42 7 .32 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 s. 53 8.21 0. ?6 0. 94 1.1 1.25 1.4 1.55 1.7 1.85 2.06 2.5 2.5 1. 06 L.3t L.52 t.1 1. 87 2.0L 2.L3 2.23 2.3 2.35 2.39 o.7 6 0. 94 1.1 L.25 L.4 1.55 1.7 1. 85 2.06 2.5 2.39 7.9! 8. 87 9.58 10.14 10. 5 10.97 11.25 11.{6 11 .54tt.2 L2.41 t T I T T T HYDROCALC Hydraullcs Dodson & Assoclates, Phone: l28t) 440'3787 ,l$1 Rights Reserved. for Windows, version 1.2a Copyright (c) 1995 fnc., 5629 Ea 1950 west,, Sulte 314, Houston, Tx 77069 Fax : ( 2 8 1 ) 4 4 0- 41 42, Ernail : softwareGdodson-hydro . com t I T PIPE CULVERT ANAIYSIS COMPUTATTON OF CUTVERT PERTORMANCE CURVE t{,ay 9, 2002 PROGRA!{ TNPUT DATAIDESCRTPTXON I t T I Culvert Dianeter (ft) .. FHWA Chart Number. I'HWA Scale Number (TyPe of Culvert Entrance) Manningrs Roughness Coefficient (n-value) ..... Entrance toss Coefficient of Culvert Opening. Culvert X,ength (ft) .. Invert Elevation at Downstream end of Culvert (ft).. Invert Efevation at UPstrearn end of Culvert (ft) .. 3.0 2 1 0.024 0.5 200.0 0.0 10.0 - I ---5 I'Starting 81ow Rate (cfs). 10.0 Incremental Fl.ow Rate (cfs) 5.0 , ' 110.0 0.0 0.0 0.0 Ending Fl.ow Rate (cfs). Startlng Tailwater DePth (ft).. Incremental Tallwater DePth (ft) .. Ending lallwater Depth (ft1.. I I CO!{PUTATION RESULTS Flow Tailwater Rate Depth(cfs) (ft) Headwater (ft) Inlet OutletControl- Control Normal Crltical Depth DePth(fr) (ft) Depth at OutLet Outlet velocity(ft1 (fps) I t T I I I 10.0 0. 0r.5.0 0.020.0 0.025.0 0.030.0 0. 0 35. 0 0.040.0 0. 0 45. O 0.0 50. 0 0.0ss.o 0.060.0 0. 06s.0 0.0?0.0 0.0?5.0 0.0 80. 0 0.085.0 0.0 90. 0 0.0 95. 0 0.0 100. 0 0.0 105. 0 0.0110.0 0.0 1.31 t.65 1. 98 2.28 2.58 2.87 3.16 3.57 3.89 4.29 4.73 5.2 5.71 6.26 6.85 7 .48 8.14 8. 84 9.58 10.35 11.17 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 6.57 8.18 9. 84 11 .58 13.4 0.71 0. 88 L.02 1. 15 L.27 1. 38 1.49 L.6 L.7L L.82 1. 93 2.04 2.t6 2.29 2.43 2.63 3.0 3.0 3.0 3.0 3.0 1.0 L.24 L.44 1. 61 t.77 t.92 2.06 2.L9 2.3 2.41 2.5 2.59 2.66 2.72 2.77 2t8L 2.85 2.81 2.9 2.9L 2.93 0.7r. 0.88 l.o2 1.15 1.21 1. 38 1.49t.6 L.7l L.82 1. 93 2.04 2.16 2.29 2.43 2.63 3.0 3.0 2.9 2.91 2.93 7 .18 8.73 9.47 10.08 10. 58 LL.02 11.4 L7.7 4 L2.04 L2.29 L2.52 L2.71 L2.87 L2.98 13.03 L2.93 L2.73 13.4414.3' 14 .98 15. 55 I T I HYDROCALC Hydraullcs Dodson & Associates, Phone: (28L) 4{0-3787, A11 Rights Reserved. for l{indows, Version 1.2a Copyright (c) 1995 Inc., 5529 EU 1960 West, Sulte 314, Houston, TX 17069 Fax: (281) 440-47 42, Emait : software0dodson-hydro. com APPENDX M RAINFALL P RECIP ITATION DATA I I I t I I T I *****HyDRO ***** (Version 5.0) ***** IDF CURVE IDF Curve for Various Return Periods 3. L53 3.895 2.3L8 2.942 r..738 2.280 1.098 L.492 .650 .907 .4L9 .585 .245 .342 .134 .186 .070 .098 .047 .056 50 Yr L00 Yr 5 .367 5.773 4.232 t0.5993.444 3.783 2.376 r..502 Date 05-04-** Page No 2 2.642 1. 685 Intensities (inlh) 2Yr 5Yr 10YrDuration25 Yr 4.939 3.851 3.095 2.L06 r..318 .850 - a97 .271 .L42 .096 5 ruin 10 min rb nin 30 nin 60 min 120 min4h8h r.5 h 24h 4.350 3.334 2.628 L.752 1.079 .696 .407 .222 .115 .079 .969 1.087.s66 .635.309 .347.t62 .L82.110 .L23 T I I ],AURANCE RANCH NEAR CARBONDALE COIORADO Intensity Curve for 25 Year Return Period Rainfall Intensity (in/h) versus Duration (h) I I T T t t I I 4.94* 3.70* 2.47. t.23. * * .00.. .00 24.00 6.00 ]-2.OO 18 .00 T I T I I I T I I T I I T T T t I T T ***** HYDRO ***** (VerSiOn 6.0) ***** IDT CURVE === !'ifs Created on Intermediate Directory: LAURLNCE.IDF *** END OF RUN Date 05-04-** Page No 3 I t T I T t I T I t t T I I T T t T T *************** HYDRO - Versj,on 6.0 *************** * HEC19 / Oesign Event vs Return Period Program * Date of Run: 05-04-** rDE CURVE * Page No --- rnput File: C:\HYDRO\LAURANCE.HDO IDE IAURANCE RANCH NEAR CAPSONDALE COLORADO === fP!" CURVE Option Selected '.. loc 39 28 107 9 I ---l' the r,atitude is 39 degrees, 28 --- The longitude is 107 degrees, RPD 25 --- The Selected Return Period is *** End of Conunand Eile minutes. 9 minutes. 25 years. T T I I t I T t I T t T T T T I t' lf T RANCH AT COULTE,R CR,EEK PRELTNINARY PLAI{ DEVELOPMENT SUMMARY TABLE LOT SUMMARY INDEX , COVRR SEEET2 PRELIYINARY PIAN SHEET 'S PRELIAINARY PLAN SEEET 24 PRELTUININY PLAN SITEET 35 SITE PI.AII CRAI'INC E DRAINAGE (SEEET I)6 SrrE PLAN CRADTNC & DRAINACB (SilEET Z)7 COULTER CNEEK RTDCE ROAD PIATI & FROfiILE SrA ,+OO rO T9+OO8 COULTER CREEK RIDEE ROAD PAIN & PROFILE STA I9+OO TO 18+OO9 COALTEN, CBEEX RIDCE ROAI' PI,AN A fuTII& STA 48+OO ?O 72+OO10 COALTER 0REEK RIDaE ROA PLtIN e PR(BItrR sTA 7z+o0 TO END,I TISEER CNBEX L/WE & NEAI'OV CIRCLE i.6TN E PNOFILE 12 SADDLE DAIYE PUIN & PROTILEI8 SADDLE CINCLE & COULTER UNE PLAN & PRATILE 14 DRIVEVAY 3 & 8 & 19 PI,IIN & PROFILE 15 MAS?ER ATILTTT (SEEET t)t6 NASTER ImUTr (SEEET 2) 17 TATER DETATLS DRAINACE DETAILS LOT 1 LOT 2 LOT J LOT 4 LOT 5 LOT 6 LOT 7 LOT 8 LOT 9 LOT 10 LOT 11 LOT 12 LOT 13 LOT 14 LOT 15 LOT 16 9.67 Ac9.72 Ac5.47 Ac4.60 Ac4.37 Ac4.19 Ac4.47 Ac4.43 Ac4.42 Ac4.+7 Ac6.39 Ac7.53 Ac6.88 Ac5.42 Ac6.72 Ac 11.21 Ac LOT 18 LOT 19 LOT 20 LOT 21 LOT 22 LOT 23 LAT 24 LOT 25 LOT 26 5.82 Ac6.46 Ac5.80 Ac5.28 Ac4.05 Ac4.9'l Ac5.36 Ac4.95 Ac5.53 Ac NqI TF',R CDNSTRUCTIIN \\\\\\\ TOTAL ROADS OPEN SPACE 155.57 Ac 20.57 Ac 302.57 Ac TOTAL 478.7O Ac I I GRAPHIC SCAI.E (![rE )td= 0n APPTICANT OWNER CTViL ENGINEER ASPEN VALLEY LAND TRUST c/o .k t,E, CoeLwt 9OZ kiu SM, 8t*.Ulernofteb @ SrAts SNOITMASS LAND COMPANY c/o te Stct OOg A,.rr.t btlai* Ottle P,A .tu 6'119..|wurrc, @ 81616 SOPRIS ENGINEERING LLC 5O2 hia S:M.suib ,AArno&la @ AtA23 SHEE? T OF '7 /-ii,i.Dt:)t)); i/ ( a( ( \ \ }+i ),1,,,'i' ,i(t.'(* I .Y \{ i :ra-sffiry':tsi ',€i:iffi u 1,,,ii,lb/ ! ',ltrtr / l(,rtltdil - -''. ,) iii :i-.-_-- _i\\l\ , , / /_R/ z -- * -_ -nE= '- .-- ---\il\\iJ\\ I r /',,,' I\ ( a -,=-=ry =: -- lr\rri.i\rs.\\ \ '-..4 '- 1U Z%-1: i = \\\\\S\\it- .-',-, 1lt7_l ,',(,-',ii'- - fl==iiNlll\\\iS u i i / 4 i !!:( <,,'-:'- -_&: : i .. v(&i(\\\rrl\)i...t r r i i i t4 i\\ilt,, 2--:SS*:'.'.'',.i;;.r\rrrr(l i. ;,i trr6--l :-r"-7.1 ffi n ncto*y l.ap-\:- /duil ^ - naDch At, PLANNER CIM A?i/,g/a, CO ArAd I I t I T I T I I I T I I t I T I I I ?EEI,IIIINI\RY PI.AN OF: THE RAI\CH AT COULTER CREEK LOCATED IN A PORTION OF& SECTION SECTION 6 &, 7, TO1YNSHIP 7 L, TOWNSHIP 7 SOUTH, RANGE COUNTY OF GARFIELD, STATE SHEET 1 OF 3 SOUTH, RANGE 87 WEST OF THE 6TH P.M. 88 1TEST OF THE 6TH P.M. OF COLORADO PNIPE d'7 )tNc2tPtrox 7 PINEL Of LA.yD AEITED u{ I Fotr Ot{ O? Sg'UOtr 6 *7. I0UNAE'P 7 SatffiL .ptIEE A" t$t? 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