Loading...
The URL can be used to link to this page
Your browser does not support the video tag.
Home
My WebLink
About
16 - Design Report - Winegardner's Warehouse (Gallatin Park, Lot 10 Block 2)
AL16 3 12016 li STORMWATER DESIGN REPORT UEPARTM I OF -' COMMUNITY DEVE OPIVIEN17- for WMGARDNER'S WAREHOUSE ADDITION LOT 10, BLOCK 2, GALLATIN PARK SUBDIVISION BOZEMAN, MONTANA Prepared for: Trademark Construction 18000 Wilson Creek Rd. Gallatin Gateway, MT 59730 Prepared by: C & H Engineering and Surveying, Inc. 1091 Stoneridge Drive Bozeman, MT 59718 (406) 587-1115 FINAL PLAN NO MODIFICATION REVIEWED &APPROVED DEPT. OF COMMUNITY DEVELOPMENT of these plans and/or elevation without prior written approval DIRECTOR DATE from the City of Bozeman Project No.: 16656 AUGUST 2016 INTRODUCTION The Winegardner's Warehouse Addition is located on Lot 10, Block 2, Gallatin Park Subdivision (342 Gallatin Park Drive) in Bozeman, Montana. This project includes a 2,340 ft2 (footprint) addition to the existing warehouse building, and installation of the associated parking areas. A majority of the existing site will maintain existing drainage patterns. The addition will manage stonnwater with the existing retention pond on the east side of the site as well as discharging to Gallatin Park Drive to utilize the existing stonnwater infrastructure for the subdivision. SITE BACKGROUND Gallatin Park Subdivision was designed and platted in 2000. The original TD&H stormwater design report enclosed used a Rational Method C factor of 0.7 for the subdivision. Lot 10 was therefore allocated 893 ft3 of runoff volume to be discharged to the street during a 1.0-yr, 2-hr storm (0.432 acres x 0.41 in/hr x 0.7 x 7200). DRAINAGE AREAS The site was divided into three drainage areas as shown on the site plan. Drainage Area#1 consists of the majority of the paved access drive, parking areas, and a portion of the existing building's roof area. Runoff from the drainage area will be conveyed to Gallatin Park Drive and the existing subdivision stonnwater collection system. The runoff volume from Drainage Area #1 is 567 ft3 (10-year, 2-hour storm). This leaves a surplus of 326 ft3(893 ft3—567 ft)for the allocated Lot 10 runoff volume in the existing subdivision stormwater system. Drainage Area#2 consists of the roof drainage from the existing building and the new addition, as well as the southeast parking area and east landscaped area. Runoff from the drainage area will be conveyed to the existing retention pond#1 in the east landscaped area. The runoff volume from Drainage Area#2 is 285 ft3 (10-year, 2-hour stone). The existing retention pond will be reshaped and will have a total volume of 460 ft3. Drainage Area#3 will not be altered from pre-development conditions. The drainage area consists of a small portion of roof drainage from the existing building as well as the northeast landscaped area. Stonnwater is conveyed to an existing retention pond in the northeast landscaped area. This pond has a volume of 62 ft3 according to the original site plan(2004). Eric. 113, 712. 5-tom- '�G�r 44-1-7 � m t2- m 0 -2-7 G,eg--S - <e,sue ¢fit tmp#1.txt Culvert Calculatorfi f Entered Data: Shape . . . . . . . . . . . . . . . . . . . . . . . . . . . Circular Number of Barrels . . . . . . . . . . . . . . . 1 Solving for . . . . . . . . . . . . . . . . . . . . . Headwater Chart Number . . . . . . . . . . . . . . . . . . . . 1 Scale Number . . . . . . . . . . . . . . . . . . . . 1 Chart Description . . . . . . . . . . . . . . . CONCRETE PIPE CULVERT; NO BEVEL ED RING ENTRANCE Scale Deccription . . . . . . . . . . . . . . . SQUARE EDGE ENTRANCE WITH HEADW ALL Flowrate . . . . . . . . . . . . . . . . . . . . . . . . 3.7900 cfs Manning's n . . . . . . . . . . . . . . . . . . . . . 0.0130 Roadway Elevation . . . . . . . . . . . . . . . K6:^4 00 ft Inlet Elevation . . . . . . . . . . . . . . . . . 62.1300 ft Outlet Elevation . . . . . . . . . . . . . . . . 62.0000 ft Diameter . . . . . . . . . . . . . . . . . . . . . . . . ...V5_�'0000 in Length . . . . . . . . . . . . . . . . . . . . . . . . . . 26.0000 ft Entrance Loss . . . . . . . . . . . . . . . . . . . 0.5000 P Tailwater . . . . . . . . . . . . . . . . . . . . . . . 0.5000 ft J`D Computed Results: Headwater . . . . . . . . . . . . . . . . . . . . . . . •.63.4049 ft From Outlet Slope . . . . . . . . . . . . . . . . . . . . . . . . . . . � 0.0050 ft/ft Velocity . . . . . . . . . . . . . . . . . . . . . . . . 4. 6571 fps DIS- HEAD- INLET OUTLET CHARGE WATER CONTROL CONTROL FLOW NORMAL CRITICAL OUTLET TAILWATER Flow ELEV. DEPTH DEPTH TYPE DEPTH DEPTH VEL. DEPTH VEL. DEPTH cfs ft ft ft in in fps ft fps ft 0.00 62.51 0.00 0.38 NA 0.00 0.00 0.00 0.00 0.00 0.50 1.00 63.05 0.00 0.92 M1 4.77 9.44 2.18 0.40 0.00 0.50 2.00 63.83 0.00 1.70 M2 6. 94 9.44 3.73 0.58 0.00 0.50 Page 1 c - ���� cry=�=�"r �•7 ��'�%c���r�Us,i� m b { o JV��� fr (- ��Kam//LV � f •®• / �(J6/ �� cA�- rIlk am. C--fC/'rz -7 7 GTE r� tmp#l.txt Culvert Calculator Entered Data: Shape . . . . . . . . . . . . . . . . . . . . . . . . . . . Circular Number of Barrels . . . . . . . . . . . . . . . 1 Solving for . . . . . . . . . . . . . . . . . . . . . Headwater Chart Number . . . . . . . . . . . . . . . . . . . . 1 ScaleNumber . . . . . . . . . . . . . . . . . . . . 1 Chart Description . . . . . . . . . . . . . . . CONCRETE PIPE CULVERT; NO BEVEL ED RING ENTRANCE Scale Description . . . . . . . . . . . . . . . SQUARE EDGE ENTRANCE WITH HEADW ALL Flowrate . . . . . . . . . . . . . . . . . . . . . . . . 7.0800 cfs Manning's n . . . . . . . . . . . . . . . . 0. 20 Roadway Elevation . . . . . . . . . . . . . . . C6.5...9t}00 ft Inlet Elevation . . . . . . . . . . . . . . . . . 63.1000 ft Outlet Elevation . . . . . . . . . . . . . . . . 63;:0000 ft Diameter . . . . . . . . . . . . . . . . . . . . . . . . r15 0000 in Length . . . . . . . . . . . . . . . . . . . . . . . . . . �36�'N00 ft Entrance Loss . . . . . . . . . . . . . . . . . . . 0.5000 Tailwater 1.5000 ft Computed Results: Headwater . . . . . . . . . . . . . . . . . . . . . . . 65.60�63 ft From Outlet Slope . . . . . . . . . . . . . . . . . . . . . . . . . . . 0.00R28 ft/ft Velocity . . . . . . . . . . . . . . . . . . . . . . . . 5.7693 fps DIS- HEAD- INLET OUTLET CHARGE WATER CONTROL CONTROL FLOW NORMAL CRITICAL OUTLET TAILWATER Flow ELEV. DEPTH DEPTH TYPE DEPTH DEPTH VEL. DEPTH VEL. DEPTH cfs ft ft ft in in fps ft fps ft 0.00 64.52 0.00 1.42 NA 0.00 0.00 0.00 0.00 0.00 1.50 1. 00 64. 60 0.00 1.50 NA 5.56 15.00 0.81 1.25 0.00 1.50 2.00 64 .72 0.00 1.62 NA 8.24 15.00 1. 63 1.25 0.00 1.50 3.00 64.89 0.00 1.79 NA 10.89 15.00 2.44 1.25 0.00 1.50 4.00 65.10 0.00 2.00 NA 15.00 15.00 3.26 1.25 0.00 1.50 5.00 65.37 0.00 2 .27 NA 15.00 15.00 4. 07 1.25 0.00 1.50 6.00 65.68 0.00 2.58 NA 15. 00 15.00 4 .89 1.25 0.00 1:50 7.00 66.04 0.00 2. 94 NA 15.00 15. 00 5.70 1.25 0.00 1.50 Page 1 hew 0 --7 cV go /•�� rC.4A `7• "7 � � /.�� U• 7 ids, w U �� tmp#l.txt Culvert Calculator Entered Data: Shape . . . . . . . . . . . . . . . . . . . . . . . . . . . Circular Number of Barrels . . . . . . . . . . . . . . . 1 Solving for . . . . . . . . . . . . . . . . . . . . . Headwater Chart Number . . . . . . . . . . . . . . . . . . . . 1 Scale Number . . . . . . . . . . . . . . . . . . . . 1 Chart Description . . . . . . . . . . . . . . . CONCRETE PIPE CULVERT; NO BEVEL ED RING ENTRANCE Scale Decsription . . . . . . . . . . . . . . . SQUARE EDGE ENTRANCE WITH HEADW ALL Flowrate . . . . . . . . . . . . . . . . . . . . . . . . 10.0000 cfs Manning's n . . . . . . . . . . . . . . . . . . . . . 0.0130 Roadway Elevation . . . . . . . . . . . . . . . :� 00 ft Inlet Elevation . . . . . . . . . . . . . . . . . 71.2300 ft Outlet Elevation . . . . . . . . . . . . . . . . 71.0000 ft Diameter . . . . . . . . . . . . . . . . . . . . . . . . 18.0000 in Length . . . . . . . . . . . . . . . . . . . . . . . . . . 23.0000 ft „ Entrance Loss . . . . . . . . . . . . . . . . . . . 0.0000 Tailwater . . . . . . . . . . . . . . . . . . . . . . . 1.0000 ft Computed Results: / Headwater . . . . . . . . . . . . . . . . . . . . . . . 7Zi__5a ft From Inlet Slope . . . . . . . . . . . . . . . . . . . . . . . . . . . 0.0100 ft/ft Velocity . . . . . . . . . . . . . . . . . . . . . . . . 6.7696 fps DIS- HEAD- INLET OUTLET CHARGE WATER CONTROL CONTROL FLOW NORMAL CRITICAL OUTLET TAILWATER Flow ELEV. DEPTH DEPTH TYPE DEPTH DEPTH VEL. DEPTH VEL. DEPTH cfs ft ft ft in in fps ft fps ft 0.00 72.01 0.50 0.78 NA 0.00 0.00 0.00 0.00 0.00 1.00 1.00 72.07 0.73 0.84 NA 3.75 14. 63 0. 80 0.31 0.00 1.00 2.00 72.20 0. 93 0. 97 NA 5.32 14. 63 1. 60 0.44 0.00 1.00 3.00 72.35 1.11 1.12 NA 6.58 14. 63 2. 40 0.55 0.00 1.00 4. 00 72.51 1.28 1.28 NA 7.70 9.19 5.54 0.64 0.00 1.00 5.00 72.70 1.46 1.47 NA 8.74 9.19 4.00 0.73 0.00 1.00 6.00 72.88 1. 63 1.65 NA 9.74 9.19 4.79 0.81 0.00 1.00 7. 00 73.08 1.85 1.76 NA 10.74 12.29 6.37 0.89 0.00 1.00 Page 1 tmp#1.txt 8.00 73.26 2.03 1.87 NA 11.75 13.15 6.55 0.98 0.00 1.00 9.00 73.50 2.27 2. 00 NA 12.82 13.93 6.68 1.07 0.00 1. 00 Page 2 GRATE SIZING Neenah R-3067 WEIR VS. ORIFICE WEIR EQUATION Q=3.3*P*(H Al.5) Q=FLOW(CFS) ORIFICE EQUATION Q=0.6*A*(2*G*H)^0.5 P=PERIMETER (IN) A=AREA(IN A 2) P (IN) A (IN A 2) H=HEAD (FT) 70.00 274.00 G=GRAV. CONST. HEAD Q(WEIR) Q(ORIFICE) 0.05 0.22 2.05 0.10 0.61 2.90 0.15 1.12 3.55 0.20 1.72 4.10 0.25 2.41 4.58 0.30 3.16 5.02 0.35 3.99 5.42 0.40 4.87 5.79 0.45 5.81 6.15 0.50 6.81 6.48 0.55 7.85 6.79 0.60 8.95 7.10 0.65 10.09 7.39.. 0.70 11.27 7.67-,) a �o� ��-s i�.sy lv �.,t2 �c,�?v�• ��`-y2�u.... �ir7. Z3 21 7"ll -97-,- AJ s - — b c`p 2 l :ale►,G �� �'�GG.✓✓,�-��'J ��,� ��`�= may �5 � � 7-6 �� `�J'j-2.5 z'�: . �� ; � �.: G �-' � Gam-Si��'� i C,= �. 7 ��,, = Cam.��' z.�.��-�.U�� -� G z7�s j,� = a.� .��.. STORMWATER DETENTION JOB:Gallatin Park B97-25 BOWSTRING METHOD DATE:2/4/99 J.ROEN AREAS(SF) PRE POST GRASS 0.3 n/a Na GRAVEL 0.55 n/a No AVEIROOF 0.9 n/a n/a TOTAL(SF) 177689 177689 WEIGHTED C FACTOR 0.30 0.70 Tc(MIN) 40.00 9 RUNOFF(CFS) 1.02 6.27 MAXIMUM VOLUME 3987.80 CUBIC FEET TIME TIME 10 YEAR Q VOLUME VOLUME VOLUME MIN SEC i(IN/HR) 'i'A(CFS) IN(CF) OUT(CF) STORE(CF) 5.00 300.00 3.22 9.19 3694.4054 305.81 3388.59 6.00 360.00 2.86 8.16 3937.8393 366.97 3570.86 7.00 420.00 2.59 7.38 4156.1323 428.14 3728.00 8.00 480.00 2.37 6.77 4354.9838 489.30 3865.68 9.00 540.00 2.20 6.27 4538.2658 550.46 3987.80 10.00 600.00 2.05 5.86 4589.2681 611.62 3977.64 11.00 660.00 1.93 5.50 4643.8729 672.79 3971.09 12.00 720.00 1.82 5.20 4700,6445 733.95 3966.70 13.00 760.00 1.73 4.94 4758.6374 795.11 3963.53 14.00 840.00 1.65 4.71 4817.2153 856.27 3960.94 15,00 900.00 1.58 4.50 4875.9436 917.44 3958.51 16.D0 960.00 1.51 4.31 4934.5228 978.60 3955.92 17.00 1020.00 1.45 4.15 4992.7449 1039.76 3952.98 18.00 1080.00 1.40 4.00 5050.4664 1100.92 3949.54 19.00 1140.00 1.35 3.86 5107.5887 1162.09 3945.50 20.00 1200.00 1.31 3.73 5164.0454 1223.25 3940.80 21.00 1260.00 1.27 3.62 5219.7936 1284.41 3935.38 22.00 1320.00 1.23 3.51 5274.807 1345.57 3929.23 23,00 1380.00 1.19 3.41 5329.0717 1406.74 3922.34 24.00 1440.00 1.16 3.32 5382.583 1467.90 3914.69 25.00 1500.00 1.13 3.23 5435.3424 1529.06 3906.28 26.00 1560.00 1.10 3.15 5487.3566 1590.22 3897.13 27.00 1620.00 1.08 3.07 5538.6354 1651.38 3887.25 28.00 1680.00 1.05 3.00 5589.1914 1712.55 3876.64 29.00 1740.00 1.03 2.93 5639.0386 1773.71 3865.33 30.00 1800.00 1.00 2.87 5688.1925 1834.87 3853.32 31.00 1860.00 0.98 2.81 5736.669 1896.03 3840.63 32.00 1920.00 0.96 2.75 5784,4847 1957.20 3827.29 33.D0 1980.00 0.94 2.70 5831.6562 2018.36 3813.30 34.D0 2040,00 0.93 2.64 5878.2001 2079.52 -'798.68 35.00 2100.00 0.91 2.59 5924,1331 2140.68 3783.45 36.00 2160.00 0.89 2.55 5969.4712 2201.85 3767,63 37.00 2220.00 0.88 2.50 6014.2306 2263.01 3751.22 38.00 2280.00 0.86 2.46 6058.4267 2324.17 3734.26 39.00 2340.00 0.85 2.42 6102.0747 2385.33 3716.74 40.00 2400.00 0.83 2.38 6145.1895 2446.50 3698.69 41.00 2460.00 0.82 2.34 6187.7853 2507.66 3680.13 42.00 2520.00 0.81 2.30 6229.8759 2568.82 3661.D6 43.00 2580.00 0.79 2.27 6271.4749 2629.98 3641.49 44.00 2640.D0 0.78 2.24 6312,5951 2691.15 3621.45 45.00 2700.00 0.77 2.20 6353,2491 2752.31 3600.94 46.00 2760.00 0.76 2.17 6393.449 2813.47 3579.98 47.D0 2820.00 0.75 2.14 6433.2064 2874.63 3558.57 48.00 2880.00 0.74 2.11 6472,5327 2935.79 3536.74 49.00 2940.00 0.73 2.08 6511.4388 2996.96 3514.48 50.00 3000.D0 0.72 2.06 6549.935 3058.12 3491.82 51.00 3060.D0 0.71 2.03 6588.0316 3119.28 3468.75 52.00 3120.00 0.70 2.01 6625,7384 3180.44 3445.29 53.00 3180.00 0.69 1.98 6663.0647 3241,61 3421.46 54.00 3240.00 0.69 1.96 6700.0196 3302,77 3397.25 55.00 3300.00 0.68 1.93 6736.612 3363.93 3372.68 56.D0 3360.00 0.67 1.91 6772.8503 3425D9 3347,76 57.00 3420.D0 0.66 1.89 6808.7427 3486.26 3322.49 58.00 3480.00 0.65 1.87 6844,2971 3547.42 3296.88 59.00 3540.00 0.65, 1.85 6879.5212 3608.58 3270.94 60.00 3600.00 0:64 1.83 6914.4223 3669.74 3244.68 61.00 3660.00 0.63 1.81 6949.0077 3730,91 3218.10 62.00 3720.00 0.63 1.79 6983.2841 3792,07 3191.22 63.00 3780.00 0.62 1.77 7017.2583 3853.23 3164.03 64.00 3840.00 0.61 1.75 7050.9367 3914.39 3136.54 65.00 3900.00 0.61 1.73 7084.3256 3975.56 3108.77 66.00 3960.D0 0.60 1.72 7117,431 4036.72 3080.71 67.00 4020.D0 0.60 1.70 7150.2588 4097.88 3052.38 68.00 4080.00 0.59 1.68 7182.8146 4159.04 3023.77 69.00 4140.00 0.58 1.67 7215.104 4220.21 2994.90 STORMWATER DETENTION JOB;Gallatin Park B97-25 BOWSTRING METHOD DATE;2/4/99 J.ROEN AREAS(SF) PRE POST GRASS 0.3 n/a n/a GRAVEL 0.55 n/a n/a AVEJROOF 0,9 n/a n!a TOTAL(SF) 840708 840708 WEIGHTED C FACTOR 0.30 0.70 Tc(MIN) 40.00 13 RUNOFF(CFS) 4.82 23.37 MAXIMUM VOLUME 20659.42 CUBIC FEET TIME TIME 10 YEAR Q VOLUME VOLUME VOLUME MIN SEC i(IN/HR) 'i'A(CFS) IN(CF) OUT(CF) STORE(CF) 5.00 300.00 3.22 43.48 17479.507 1446.90 16032.61 6.00 360.00 2.86 38.62 18631.277 1736.28 16894.99 7.00 420.00 2.59 34.94 19664.097 2025.66 17638.43 8.00 480.00 2.37 32.04 20604.932 2315.04 18289.89 9.00 540.00 2.20 29.67 21472.102 2604.42 18867.68 10.00 600.00 2.05 27,71 22278.692 2893.80 19384.89 11.00 660.00 1.93 26.05 23034.412 3183.18 19851,23 12.00 720.00 1.82 24.61 23746.692 3472.56 20274,13 13.00 780.00 1.73 23.37 24421.361 3761.95 20659.42 14.00 840.00 1.65 22.27 24608.848 4051.33 20557.52 15.00 900.00 1.58 21.29 24807.031 4340.71 20466.33 16,00 960.00 151 20.42 25012.819 4630.09 20382.73 17.00 1020.00 1 A5 19.63 25223.918 4919.47 20304.45 18,00 1080.00 1,40 18.91 25438.609 5208.85 20229.76 19.00 1140.00 1.35 18.26 25655.586 5498.23 20157.36 20.00 1200.00 1.31 17.66 25873.85 5787,61 20086.24 21.00 1260.00 1.27 17.11 26092.632 6076.99 20015.64 22.00 1320,00 1.23 16.60 26311.339 6366.37 19944.97 23.00 1380.00 1.19 16.13 26529.511 6655.75 19873.76 24.00 1440.00 1.16 15.69 26746.789 6945.13 19801.66 25.00 1500.00 1.13 15.27 26962.897 7234.51 19728.39 26,00 1560.00 1.10 14,89 27177.62 7523.89 19653.73 27.00 1620.00 1.08 14.53 27390.794 7813.27 19577.52 28.00 1680.00 1.05 14.19 27602.294 8102.65 19499.64 29.00 1740.00 1.03 13.87 27812.026 8392.03 19419.99 30.00 1800.00 1,00 13.57 28019.923 8681.41 19338.51 31.00 1860.00 0.98 13.28 28225.935 a970.79 19255A4 32.00 1920.00 0.96 13.01 28430.032 9260.17 19169.86 33.00 1980.00 0.94 12.75 28632.193 9549.55 19082,64 34.00 2040.00 0.93 12.51 28832.41 9838.93 18993.48 35.00 2100.00 0.91 12.27 29030.685 10123.31 18902.37 36.00 2160.00 0.89 12.05 29227.022 10417.69 18809.33 37.00 2220.00 0,88 11.84 29421.436 10707.07 18714.36 38.00 2280.00 0.86 11,64 29613.941 10996.46 18617.49 39.00 2340.00 0.85 11.44 29804.56 11285.84 18518.72 40.00 2400.00 0.83 11.25 29993.313 11575.22 18418.10 41.00 2460.00 0.82 i t A7 30180.227 11864.60 18315,63 42.00 2520.00 0.81 10.90 30365.328 12153,98 18211.35 43.00 2580.00 0.79 10.74 30548.644 12443.36 18105.29 44.00 2640.00 0.78 10.58 30730.203 12732.74 17997.47 45.00 2700.00 0.77 10.42 30910.035 13022.12 17887.92 46.00 2760.00 0.76 10.28 31068A68 13311.50 17776,67 47.00 2820.00 0.75 10.13 31264.634 136W,88 17663,76 48.00 2880.00 0.74 10.00 31439.461 13890.26 17549.20 49.00 2940.00 0.73 9.86 31612.68 14179.64 17433.04 50.00 3000.00 0.72 9.73 31784.32 14469.02 17315.30 51.00 3060.00 0.71 9.61 31954.409 14758.40 17196.01 52.00 3120.00 0.70 9.49 32122.978 15047.78 17075.20 53.00 3180,00 0.69 9.37 32290.053 15337.16 16952.89 54.00 3240.00 0.69 9.26 32455.664 15626.54 16829.12 55.00 3300.00 0,68 9.15 32619.637 15915.92 16703.92 56,00 3360.00 0.67 9.04 32782.6 16205.30 16577.30 57.00 3420.00 0.66 8.94 32943.978 16494.68 16449.30 58,00 3480.00 0.65_ 8.84 33103.999 16784.06 16319.94 59.00 3540.00 0.65 8.74 33262.686 17073.44 16189.24 60.00 3600.00 0.64 8.65 33420.065 17362.82 16057,24 61.00 3660.00 0.63 8.55 33576.161 17652.20 15923.96 62.00 3720.00 0.63 8.46 33730.996 17941.58 15789.41 63,00 3780.00 0.62 8.38 33884.593 18230.96 15653.63 64.00 3840.00 0.61 8.29 34036.976 18520.35 15516.63 65.00 3900.00 0.61 8,21 34188,167 18W9.73 15378.44 66,00 3960.00 0.60 8.13 34338.186 19099.11 15239.08 67.00 4020.00 0.60 8.05 34487.055 19388.49 15098,57 68.00 4080.00 0.59 7,97 34634.794 19677.87 14956.93 69.00 4140.00 0.58 7.90 34781.424 19967.25 14814.18 02i F-< c F c� . r/ It ,� � ,�✓� ar. - r�i12. �,.� C��,fir,s)����j �--����►.sue) � �.� iI I HYDRAULIC DESIGN OF SEWERS AND CULVERTS FIGURE 29 CRITICAL DEPTH CHARTS CIRCULAR, ARCH, AND HORIZONTAL ELLIPTICAL PIPE 10 132=V 4-1 8 FOR VALUES OF dc BEYOND CURVE, U E 0 lea' X F- a- G w u 4 —Lm--a'— is cr 2 O to 20 30 40 50 100 200 300 400500 1000 2000 0, DISCHARGE IN C.FS. to CIRCULAR PIPE � FOR VALUES OF d,BEY NO CURVE. USE d,- RISE z 77".122' F- 62".102" (L 6 w C3 54 1".60 (1 4 ————— 40'.65' 20Z. xa 2 —------ I to ao 30 40 50 100 200 300 400500 1000 2000 0, DISCHARGE IN C.F.S. ARCH PIPE to LL FOR VALUES OF d, BEYOND CURVE, USE dx= RISE G ui 0 ------- 58 91, L) 4 38-1 0' 29-45" 2 0 5 10 20 30 40 50 100 200 300 400 500 1000 2000 0, DISCHARGE IN C.FS, HORIZONTAL ELLIPTICAL PIPE 42 II-ss 151 x 97 73000 EXAMPLE S-ze.76".48" O.3OO cf. 136 x 87 2000 2 (3) H W* H W ... r- 41-0 -.--— 0 (foot) t'` 4.0 t21 x 77 (I) 2-B l z / (2) 2 2 a B 4.0 3.0 3.0 - 113 x 72 1000 (3) 2-3 92 800 *0 in foot 30 106 x 68 - _ 600 _ 2 0 98 x 63 500 � -2.0 -- 400 -5:*%E/ 2.0 91x 58 i N 00/ 0 1,5 1.5 w 83 x 53 s - 1.5 200 2 '-_6 x 4 8 To un acolt(2)or(3) w dra. a straight line 1X a 0. - 68 x 43 U. IO+J in ouch xnown "[us$ U. of suco and dmchorge Q 1 a J 2 go to intsnocf scolo(E1' 1.0_ Q _ N 1.0 } From point an scoie(I) ` 0 - 60 x 38 60 Project hortzoetally to d .9 .9 tL w eolufioyae either scats .9 w 53 x 34 ox 40 % .8 .8 x = —g— N 30 a >r 49 x 32 w Z p 7 7 a 20 .7 n 45x29 a N HW/0 ENTRANCE W 42x27,.r SCALE TYPE 3= - .6 .6 o .6 N 10 (I) Sguare rdgs.0h W 38 x 24 g heodwa0 S (2) Groovo oad with 6 noadratl —.5 .5 5 (3) Grovs and —'S proiocting 4 -30x19 3 2 .4 .4 .4 B 0 1,10 23 x 14 HEADWATER DEPTH FOR OVAL CONCRETE PIPE CULVERTS LONG AXIS HORIZONTAL WITH INLET CONTROL e UPEAU OF PUBLIC ROADS JAN.1963 ffl II-62 2000 u MW� h ho —1000 0.4 800 SUBMERGED OUTLET CULVERT FLOWING FULL 05 151 X97 HW•Ma he—LSo 600 � For outlet crown not submerged,compule HW by 0.6 136 x87 methods daau,bed me 41eei9n procedure 0.7 500 121 x77 0.8 400 113 x 72 0.9 106 x68 1.0 -300 98 x 63 91 X 5 8 e O,- w y° pry 200 83 x 53 w V 75 x 48 QO !�/ F— u z 2 Z 68 x 43 �pQ N u a° �w 6OX38 raall w 100 N _ - ti 00 = 3 Q 60 . 53x34 > O _ F9 w 4 ¢ Ck _ p 60 <n 45 x 29 5 50 W 42 x 27 to NOTE �_ 6 40 36 x 24 Dimensions on size scale or. �?D :_----' ordered for loop axis horizontal 7 -30' installation They should be e � revaraed for loop oats vertical. 30 X 19 10 20 —o ,a. G4 -� Z 23 x 14 20 to -8 6 5 HEAD FOR OVAL CONCRETE PIPE CULVERTS LONG AXIS HORIZONTAL OR VERTICAL FLOWING FULL BUREAU OF PUBLIC ROADS JAN.1963 n— 0.012 P I