Loading...
HomeMy WebLinkAboutAppendix C - Pond and Pipe Calculations 10-28-2020 APPENDIX C POND SIZING AND STORM SEWER FACILITIES CALCULATIONS RETENTION POND #1 REQUIRED VOLUME 1. Calculate Area and Weighted C Factor Contributing Area DA C Area (ft 2 )C * Area Landscape 1A 0.20 1626 325 Hardscape 1A 0.95 0 0 Landscape 1B 0.20 205 41 Hardscape 1B 0.95 5732 5445 Total 7562 5811 C=Weighted C Factor 0.77 2. Calculate Required Volume Q = CIA V=7200Q C = Weighted C Factor 0.77 I = intensity (in/hr) 0.41 (10 yr, 2hr storm) A = Area (acres) 0.17 Q = runoff (cfs) 0.05 V = REQUIRED VOL (ft3)394 Pond Storage Volume (ft3)403 CHASE 1 25-YR OUTFLOW RATE REQUIRED CAPACITY 1. Calculate Area and Weighted C Factor Contributing Area DA C Area (ft 2 )C * Area Landscape 1A 0.20 1626 325 Hardscape 1A 0.95 0 0 Landscape 1B 0.20 205 41 Hardscape 1B 0.95 5732 5445 Total 7562 5811 A = Area (acres) 0.17 C = Weighted C Factor 0.77 2. Calculate Rainfall Intensity (Duration = Max Tc from Contributing Drainage Areas) i = 0.78x-0.64 (25-yr Storm, Fig. I-3, COB Design Standards) x = storm duration (hrs) 0.08 (DA #1B) i = rainfall intensity (in./hr.) 3.83 3. Calculate 25-yr Pond Outflow Rate Q = CiA C = Rational Method Runoff Coefficient 0.77 (calculated above) i = rainfall intensity (in./hr.) 3.83 (calculated above) A = Area (acres) 0.17 (calculated above) Q = 25-yr Pipe Flow Rate (cfs) 0.51 MANNING'S EQUATION for OPEN CHANNEL FLOW Storm Chase #1 Project: Westside Flats Location: Bozeman, MT By: AMK Date: 5/19/2020 Chk By: Date: INPUT z (sideslope)= 0 Mannings Formula z (sideslope)= 0 w (btm width, ft)= 1 Q = (1.486/n)ARh2/3S1/2 d (depth, ft)= 0.5 R = A/P S (slope, ft/ft) 0.015 A = cross sectional area n low =0.013 P= wetted perimeter n high =0.013 S = slope of channel V = (1.49/n)Rh2/3S1/2 n = Manning's roughness coeffiQ = V x A Depth, ft Area, sf Wetted Perimete r, ft Hydraulic Radius, ft Velocity, fps Flow, cfs Velocity, fps Flow, cfs 0.5 0.50 2.00 0.25 5.56 2.78 5.56 2.78 T = 1.00 Low N High N d w z 11 z T Clear Data Entry Cells RETENTION POND #2 REQUIRED VOLUME 1. Calculate Area and Weighted C Factor Contributing Area DA C Area (ft 2 )C * Area Landscape 2A 0.20 2909 582 Hardscape 2A 0.95 326 310 Landscape 2B 0.20 4218.70 843.74 Hardscape 2B 0.95 8631 8200 Total 16085 9935 C=Weighted C Factor 0.62 2. Calculate Required Volume Q = CIA V=7200Q C = Weighted C Factor 0.62 I = intensity (in/hr) 0.41 (10 yr, 2hr storm) A = Area (acres) 0.37 Q = runoff (cfs) 0.09 V = REQUIRED VOL (ft3)673 Pond Storage Volume (ft3)843 CHASE 2 25-YR OUTFLOW RATE REQUIRED CAPACITY 1. Calculate Area and Weighted C Factor Contributing Area DA C Area (ft 2 )C * Area Landscape 2A 0.20 2909 582 Hardscape 2A 0.95 326 310 Landscape 2B 0.20 4219 844 Hardscape 2B 0.95 8631 8200 Total 16085 9935 A = Area (acres) 0.37 C = Weighted C Factor 0.62 2. Calculate Rainfall Intensity (Duration = Max Tc from Contributing Drainage Areas) i = 0.78x-0.64 (25-yr Storm, Fig. I-3, COB Design Standards) x = storm duration (hrs) 0.08 (DA #2B) i = rainfall intensity (in./hr.) 3.83 3. Calculate 25-yr Pond Outflow Rate Q = CiA C = Rational Method Runoff Coefficient 0.62 (calculated above) i = rainfall intensity (in./hr.) 3.83 (calculated above) A = Area (acres) 0.37 (calculated above) Q = 25-yr Pipe Flow Rate (cfs) 0.87 MANNING'S EQUATION for OPEN CHANNEL FLOW Storm Chase #2 Project: Westside Flats Location: Bozeman, MT By: AMK Date: 5/19/2020 Chk By: Date: INPUT z (sideslope)= 0 Mannings Formula z (sideslope)= 0 w (btm width, ft)= 1 Q = (1.486/n)ARh2/3S1/2 d (depth, ft)= 0.5 R = A/P S (slope, ft/ft) 0.015 A = cross sectional area n low =0.013 P= wetted perimeter n high =0.013 S = slope of channel V = (1.49/n)Rh2/3S1/2 n = Manning's roughness coeffiQ = V x A Depth, ft Area, sf Wetted Perimete r, ft Hydraulic Radius, ft Velocity, fps Flow, cfs Velocity, fps Flow, cfs 0.5 0.50 2.00 0.25 5.56 2.78 5.56 2.78 T = 1.00 Low N High N d w z 11 z T Clear Data Entry Cells RETENTION POND #3 REQUIRED VOLUME 1. Calculate Area and Weighted C Factor Contributing Area DA C Area (ft 2 )C * Area Landscape 3A 0.20 7828 1566 Hardscape 3A 0.95 3611 3430 Total 11439 4996 C=Weighted C Factor 0.44 2. Calculate Required Volume Q = CIA V=7200Q C = Weighted C Factor 0.44 I = intensity (in/hr) 0.41 (10 yr, 2hr storm) A = Area (acres) 0.26 Q = runoff (cfs) 0.05 V = REQUIRED VOL (ft3)339 Pond Storage Volume (ft3)463 RETENTION POND #4 REQUIRED VOLUME 1. Calculate Area and Weighted C Factor Contributing Area DA C Area (ft2 )C * Area Landscape 4A 0.20 10588 2118 Hardscape 4A 0.95 12393 11773 Landscape 4A 0.20 1951 390 Hardscape 4A 0.95 18541 17614 Total 43474 31895 C=Weighted C Factor 0.73 2. Calculate Required Volume Q = CIA V=7200Q C = Weighted C Factor 0.73 I = intensity (in/hr) 0.41 (10 yr, 2hr storm) A = Area (acres) 1.00 Q = runoff (cfs) 0.30 V = REQUIRED VOL (ft3)2162 Pond Storage Volume (ft3)2,487 CHASE 4A 25-YR OUTFLOW RATE REQUIRED CAPACITY 1. Calculate Area and Weighted C Factor Contributing Area DA C Area (ft 2 )C * Area Landscape 4A 0.20 10588 2118 Hardscape 4A 0.95 12393 11773 Landscape 4B 0.20 1951 390 Hardscape 4B 0.95 18541 17614 Total 43474 31895 A = Area (acres) 1.00 C = Weighted C Factor 0.73 2. Calculate Rainfall Intensity (Duration = Max Tc from Contributing Drainage Areas) i = 0.78x-0.64 (25-yr Storm, Fig. I-3, COB Design Standards) x = storm duration (hrs) 0.08 (DA #4A) i = rainfall intensity (in./hr.) 3.83 3. Calculate 25-yr Pond Outflow Rate Q = CiA C = Rational Method Runoff Coefficient 0.73 (calculated above) i = rainfall intensity (in./hr.) 3.83 (calculated above) A = Area (acres) 1.00 (calculated above) Q = 25-yr Pipe Flow Rate (cfs) 2.80 MANNING'S EQUATION for OPEN CHANNEL FLOW Storm Chase #4A Project: Westside Flats Location: Bozeman, MT By: AMK Date: 5/19/2020 Chk By: Date: INPUT z (sideslope)= 0 Mannings Formula z (sideslope)= 0 w (btm width, ft)= 1.5 Q = (1.486/n)ARh2/3S1/2 d (depth, ft)= 0.5 R = A/P S (slope, ft/ft) 0.015 A = cross sectional area n low =0.013 P= wetted perimeter n high =0.013 S = slope of channel V = (1.49/n)Rh2/3S1/2 n = Manning's roughness coeffiQ = V x A Depth, ft Area, sf Wetted Perimete r, ft Hydraulic Radius, ft Velocity, fps Flow, cfs Velocity, fps Flow, cfs 0.5 0.75 2.50 0.30 6.27 4.71 6.27 4.71 T = 1.50 Low N High N d w z 11 z T Clear Data Entry Cells MANNING'S EQUATION for OPEN CHANNEL FLOW Storm Swale #4A Project: Westside Flats Location: Bozeman, MT By: AMK Date: 5/19/2020 Chk By: Date: INPUT z (sideslope)= 4 Mannings Formula z (sideslope)= 4 w (btm width, ft)= 0 Q = (1.486/n)ARh2/3S1/2 d (depth, ft)= 0.75 R = A/P S (slope, ft/ft) 0.08 A = cross sectional area n low =0.035 P= wetted perimeter n high =0.035 S = slope of channel V = (1.49/n)Rh2/3S1/2 n = Manning's roughness coeffiQ = V x A Depth, ft Area, sf Wetted Perimete r, ft Hydraulic Radius, ft Velocity, fps Flow, cfs Velocity, fps Flow, cfs 0.75 2.25 6.18 0.36 6.12 13.77 6.12 13.77 T = 6.00 Low N High N d w z 11 z T Clear Data Entry Cells CHASE 4B 25-YR OUTFLOW RATE REQUIRED CAPACITY 1. Calculate Area and Weighted C Factor Contributing Area DA C Area (ft 2 )C * Area Landscape 4B 0.20 1951 390 Hardscape 4B 0.95 18541 17614 Total 20492 18005 A = Area (acres) 0.47 C = Weighted C Factor 0.88 2. Calculate Rainfall Intensity (Duration = Max Tc from Contributing Drainage Areas) i = 0.78x-0.64 (25-yr Storm, Fig. I-3, COB Design Standards) x = storm duration (hrs) 0.08 (DA #4B) i = rainfall intensity (in./hr.) 3.83 3. Calculate 25-yr Pond Outflow Rate Q = CiA C = Rational Method Runoff Coefficient 0.88 (calculated above) i = rainfall intensity (in./hr.) 3.83 (calculated above) A = Area (acres) 0.47 (calculated above) Q = 25-yr Pipe Flow Rate (cfs) 1.58 MANNING'S EQUATION for OPEN CHANNEL FLOW Storm Chase #4B Project: Westside Flats Location: Bozeman, MT By: AMK Date: 5/19/2020 Chk By: Date: INPUT z (sideslope)= 0 Mannings Formula z (sideslope)= 0 w (btm width, ft)= 1 Q = (1.486/n)ARh2/3S1/2 d (depth, ft)= 0.5 R = A/P S (slope, ft/ft) 0.015 A = cross sectional area n low =0.013 P= wetted perimeter n high =0.013 S = slope of channel V = (1.49/n)Rh2/3S1/2 n = Manning's roughness coeffiQ = V x A Depth, ft Area, sf Wetted Perimete r, ft Hydraulic Radius, ft Velocity, fps Flow, cfs Velocity, fps Flow, cfs 0.5 0.50 2.00 0.25 5.56 2.78 5.56 2.78 T = 1.00 Low N High N d w z 11 z T Clear Data Entry Cells DETENTION POND #5 REQUIRED VOLUME 1. Calculate Area and Weighted C Factor (Post-Development) Contributing Area DA C Area (ft2 )C * Area Landscape 5A 0.2 21137 4227 Hardscape 5A 0.95 4815 4574 Landscape 5B 0.2 3690 738 Hardscape 5B 0.95 23405 22235 Total 53046 31774 C=Weighted C Factor 0.60 2. Calculate Required Volume Q = CIA V=7200Q C = Weighted C Factor 0.60 I = intensity (in/hr) 0.41 (10 yr, 2hr storm) A = Area (acres) 1.22 Q = runoff (cfs) 0.30 V = REQUIRED VOL (ft3)2153 Pond Storage Volume (ft3)2,259 CHASE 5 25-YR OUTFLOW RATE REQUIRED CAPACITY 1. Calculate Area and Weighted C Factor Contributing Area DA C Area (ft 2 )C * Area Landscape 5A 0.20 21137 4227 Hardscape 5A 0.95 4815 4574 Landscape 5B 0.20 3690 738 Hardscape 5B 0.95 23405 22235 Total 53046 31774 A = Area (acres) 1.22 C = Weighted C Factor 0.60 2. Calculate Rainfall Intensity (Duration = Max Tc from Contributing Drainage Areas) i = 0.78x-0.64 (25-yr Storm, Fig. I-3, COB Design Standards) x = storm duration (hrs) 0.08 (DA #5B) i = rainfall intensity (in./hr.) 3.83 3. Calculate 25-yr Pond Outflow Rate Q = CiA C = Rational Method Runoff Coefficient 0.60 (calculated above) i = rainfall intensity (in./hr.) 3.83 (calculated above) A = Area (acres) 1.22 (calculated above) Q = 25-yr Pipe Flow Rate (cfs) 2.79 MANNING'S EQUATION for OPEN CHANNEL FLOW Storm Chase #5 Project: Westside Flats Location: Bozeman, MT By: AMK Date: 5/19/2020 Chk By: Date: INPUT z (sideslope)= 0 Mannings Formula z (sideslope)= 0 w (btm width, ft)= 1 Q = (1.486/n)ARh2/3S1/2 d (depth, ft)= 0.5 R = A/P S (slope, ft/ft) 0.015 A = cross sectional area n low =0.013 P= wetted perimeter n high =0.013 S = slope of channel V = (1.49/n)Rh2/3S1/2 n = Manning's roughness coeffiQ = V x A Depth, ft Area, sf Wetted Perimete r, ft Hydraulic Radius, ft Velocity, fps Flow, cfs Velocity, fps Flow, cfs 0.5 0.50 2.00 0.25 5.56 2.78 5.56 2.78 T = 1.00 Low N High N d w z 11 z T Clear Data Entry Cells MANNING'S EQUATION for OPEN CHANNEL FLOW Storm Swale #5 Project: Westside Flats Location: Bozeman, MT By: AMK Date: 5/19/2020 Chk By: Date: INPUT z (sideslope)= 4 Mannings Formula z (sideslope)= 4 w (btm width, ft)= 0 Q = (1.486/n)ARh2/3S1/2 d (depth, ft)= 0.5 R = A/P S (slope, ft/ft) 0.025 A = cross sectional area n low =0.035 P= wetted perimeter n high =0.035 S = slope of channel V = (1.49/n)Rh2/3S1/2 n = Manning's roughness coeffiQ = V x A Depth, ft Area, sf Wetted Perimete r, ft Hydraulic Radius, ft Velocity, fps Flow, cfs Velocity, fps Flow, cfs 0.5 1.00 4.12 0.24 2.61 2.61 2.61 2.61 T = 4.00 Low N High N d w z 11 z T Clear Data Entry Cells RETENTION POND #6 REQUIRED VOLUME 1. Calculate Area and Weighted C Factor Contributing Area DA C Area (ft 2 )C * Area Landscape 6A 0.20 15808 3162 Hardscape 6A 0.95 2337 2220 Landscape 6B 0.20 3195 639 Hardscape 6B 0.95 19422 18451 Total 40761 24471 C=Weighted C Factor 0.60 2. Calculate Required Volume Q = CIA V=7200Q C = Weighted C Factor 0.60 I = intensity (in/hr) 0.41 (10 yr, 2hr storm) A = Area (acres) 0.94 Q = runoff (cfs) 0.23 V = REQUIRED VOL (ft3)1658 Pond Storage Volume (ft3)1,939 CHASE 6 25-YR OUTFLOW RATE REQUIRED CAPACITY 1. Calculate Area and Weighted C Factor Contributing Area DA C Area (ft 2 )C * Area Landscape 6A 0.20 15808 3162 Hardscape 6A 0.95 2337 2220 Landscape 6B 0.20 3195 639 Hardscape 6B 0.95 19422 18451 Total 40761 24471 A = Area (acres) 0.94 C = Weighted C Factor 0.60 2. Calculate Rainfall Intensity (Duration = Max Tc from Contributing Drainage Areas) i = 0.78x-0.64 (25-yr Storm, Fig. I-3, COB Design Standards) x = storm duration (hrs) 0.08 (DA #5B) i = rainfall intensity (in./hr.) 3.83 3. Calculate 25-yr Pond Outflow Rate Q = CiA C = Rational Method Runoff Coefficient 0.60 (calculated above) i = rainfall intensity (in./hr.) 3.83 (calculated above) A = Area (acres) 0.94 (calculated above) Q = 25-yr Pipe Flow Rate (cfs) 2.15 MANNING'S EQUATION for OPEN CHANNEL FLOW Storm Chase #6 Project: Westside Flats Location: Bozeman, MT By: AMK Date: 5/19/2020 Chk By: Date: INPUT z (sideslope)= 0 Mannings Formula z (sideslope)= 0 w (btm width, ft)= 1 Q = (1.486/n)ARh2/3S1/2 d (depth, ft)= 0.5 R = A/P S (slope, ft/ft) 0.015 A = cross sectional area n low =0.013 P= wetted perimeter n high =0.013 S = slope of channel V = (1.49/n)Rh2/3S1/2 n = Manning's roughness coeffiQ = V x A Depth, ft Area, sf Wetted Perimete r, ft Hydraulic Radius, ft Velocity, fps Flow, cfs Velocity, fps Flow, cfs 0.5 0.50 2.00 0.25 5.56 2.78 5.56 2.78 T = 1.00 Low N High N d w z 11 z T Clear Data Entry Cells RETENTION POND #7 REQUIRED VOLUME 1. Calculate Area and Weighted C Factor Contributing Area DA C Area (ft2 )C * Area Hardscape 7A 0.95 3611 3430 Landscape 7A 0.2 11719 2344 Hardscape 7B 0.95 19357 18389 Landscape 7B 0.2 3609 722 Hardscape 7C 0.95 2305 2190 Landscape 7C 0.2 594 119 Total 38295 24885 C=Weighted C Factor 0.65 2. Calculate Required Volume Q = CIA V=7200Q C = Weighted C Factor 0.65 I = intensity (in/hr) 0.41 (10 yr, 2hr storm) A = Area (acres) 0.88 Q = runoff (cfs) 0.23 V = REQUIRED VOL (ft3)1686 Pond Storage Volume (ft3)2,079 CHASE 7 25-YR OUTFLOW RATE REQUIRED CAPACITY 1. Calculate Area and Weighted C Factor Contributing Area DA C Area (ft 2 )C * Area Hardscape 7A 0.95 3611 3430 Landscape 7A 0.2 11719 2344 Hardscape 7B 0.95 19357 18389 Landscape 7B 0.2 3609 722 Hardscape 7C 0.95 2305 2190 Landscape 7C 0.2 594 119 Total 38295 24885 A = Area (acres) 0.88 C = Weighted C Factor 0.65 2. Calculate Rainfall Intensity (Duration = Max Tc from Contributing Drainage Areas) i = 0.78x-0.64 (25-yr Storm, Fig. I-3, COB Design Standards) x = storm duration (hrs) 0.08 (DA #7B) i = rainfall intensity (in./hr.) 3.83 3. Calculate 25-yr Pond Outflow Rate Q = CiA C = Rational Method Runoff Coefficient 0.65 (calculated above) i = rainfall intensity (in./hr.) 3.83 (calculated above) A = Area (acres) 0.88 (calculated above) Q = 25-yr Pipe Flow Rate (cfs) 2.19 MANNING'S EQUATION for OPEN CHANNEL FLOW Storm Chase #7 Project: Westside Flats Location: Bozeman, MT By: AMK Date: 5/19/2020 Chk By: Date: INPUT z (sideslope)= 0 Mannings Formula z (sideslope)= 0 w (btm width, ft)= 1 Q = (1.486/n)ARh2/3S1/2 d (depth, ft)= 0.5 R = A/P S (slope, ft/ft) 0.015 A = cross sectional area n low =0.013 P= wetted perimeter n high =0.013 S = slope of channel V = (1.49/n)Rh2/3S1/2 n = Manning's roughness coeffiQ = V x A Depth, ft Area, sf Wetted Perimete r, ft Hydraulic Radius, ft Velocity, fps Flow, cfs Velocity, fps Flow, cfs 0.5 0.50 2.00 0.25 5.56 2.78 5.56 2.78 T = 1.00 Low N High N d w z 11 z T Clear Data Entry Cells MANNING'S EQUATION for OPEN CHANNEL FLOW Storm Swale #7 Project: Westside Flats Location: Bozeman, MT By: AMK Date: 5/19/2020 Chk By: Date: INPUT z (sideslope)= 4 Mannings Formula z (sideslope)= 4 w (btm width, ft)= 0 Q = (1.486/n)ARh2/3S1/2 d (depth, ft)= 0.5 R = A/P S (slope, ft/ft) 0.0097 A = cross sectional area n low =0.035 P= wetted perimeter n high =0.035 S = slope of channel V = (1.49/n)Rh2/3S1/2 n = Manning's roughness coeffiQ = V x A Depth, ft Area, sf Wetted Perimete r, ft Hydraulic Radius, ft Velocity, fps Flow, cfs Velocity, fps Flow, cfs 0.5 1.00 4.12 0.24 1.63 1.63 1.63 1.63 T = 4.00 Low N High N d w z 11 z T Clear Data Entry Cells RETENTION POND #8 REQUIRED VOLUME 1. Calculate Area and Weighted C Factor Contributing Area DA C Area (ft 2 )C * Area Landscape 8A 0.20 6301 1260 Hardscape 8A 0.95 3611 3430 Landscape 8B 0.20 1769 354 Hardscape 8B 0.95 4123 3917 Total 15804 8961 C=Weighted C Factor 0.57 2. Calculate Required Volume Q = CIA V=7200Q C = Weighted C Factor 0.57 I = intensity (in/hr) 0.41 (10 yr, 2hr storm) A = Area (acres) 0.36 Q = runoff (cfs) 0.08 V = REQUIRED VOL (ft3)607 Pond Storage Volume (ft3)639 CHASE 8 25-YR OUTFLOW RATE REQUIRED CAPACITY 1. Calculate Area and Weighted C Factor Contributing Area DA C Area (ft 2 )C * Area Landscape 8A 0.2 6301 1260 Hardscape 8A 0.95 3611 3430 Landscape 8B 0.2 1769 354 Hardscape 8B 0.95 4123 3917 Total 15804 8961 A = Area (acres) 0.36 C = Weighted C Factor 0.57 2. Calculate Rainfall Intensity (Duration = Max Tc from Contributing Drainage Areas) i = 0.78x-0.64 (25-yr Storm, Fig. I-3, COB Design Standards) x = storm duration (hrs) 0.34 (DA #8A) i = rainfall intensity (in./hr.) 1.57 3. Calculate 25-yr Pond Outflow Rate Q = CiA C = Rational Method Runoff Coefficient 0.57 (calculated above) i = rainfall intensity (in./hr.) 1.57 (calculated above) A = Area (acres) 0.36 (calculated above) Q = 25-yr Pipe Flow Rate (cfs) 0.32 MANNING'S EQUATION for OPEN CHANNEL FLOW Storm Chase #8 Project: Westside Flats Location: Bozeman, MT By: AMK Date: 5/19/2020 Chk By: Date: INPUT z (sideslope)= 0 Mannings Formula z (sideslope)= 0 w (btm width, ft)= 1 Q = (1.486/n)ARh2/3S1/2 d (depth, ft)= 0.5 R = A/P S (slope, ft/ft) 0.015 A = cross sectional area n low =0.013 P= wetted perimeter n high =0.013 S = slope of channel V = (1.49/n)Rh2/3S1/2 n = Manning's roughness coeffiQ = V x A Depth, ft Area, sf Wetted Perimete r, ft Hydraulic Radius, ft Velocity, fps Flow, cfs Velocity, fps Flow, cfs 0.5 0.50 2.00 0.25 5.56 2.78 5.56 2.78 T = 1.00 Low N High N d w z 11 z T Clear Data Entry Cells RETENTION POND #9 REQUIRED VOLUME 1. Calculate Area and Weighted C Factor Contributing Area DA C Area (ft 2 )C * Area LANDSCAPE 9A 0.20 9760 1952 HARDSCAPE 9A 0.95 2407 2287 LANDSCAPE 9B 0.20 6609 1322 HARDSCAPE 9B 0.95 24215 23004 Total 42991 28565 C=Weighted C Factor 0.66 2. Calculate Required Volume Q = CIA V=7200Q C = Weighted C Factor 0.66 I = intensity (in/hr) 0.41 (10 yr, 2hr storm) A = Area (acres) 0.99 Q = runoff (cfs) 0.27 V = REQUIRED VOL (ft3)1936 Pond Storage Volume (ft3)2,111 CHASE 9 25-YR OUTFLOW RATE REQUIRED CAPACITY 1. Calculate Area and Weighted C Factor Contributing Area DA C Area (ft 2 )C * Area LANDSCAPE 9A 0.2 9760 1952 HARDSCAPE 9A 0.95 2407 2287 LANDSCAPE 9B 0.2 6609 1322 HARDSCAPE 9B 0.95 24215 23004 Total 42991 28565 A = Area (acres) 0.99 C = Weighted C Factor 0.66 2. Calculate Rainfall Intensity (Duration = Max Tc from Contributing Drainage Areas) i = 0.78x-0.64 (25-yr Storm, Fig. I-3, COB Design Standards) x = storm duration (hrs) 0.08 (DA #9B) i = rainfall intensity (in./hr.) 3.83 3. Calculate 25-yr Pond Outflow Rate Q = CiA C = Rational Method Runoff Coefficient 0.66 (calculated above) i = rainfall intensity (in./hr.) 3.83 (calculated above) A = Area (acres) 0.99 (calculated above) Q = 25-yr Pipe Flow Rate (cfs) 2.51 MANNING'S EQUATION for OPEN CHANNEL FLOW Storm Chase #9 Project: Westside Flats Location: Bozeman, MT By: AMK Date: 5/19/2020 Chk By: Date: INPUT z (sideslope)= 0 Mannings Formula z (sideslope)= 0 w (btm width, ft)= 1 Q = (1.486/n)ARh2/3S1/2 d (depth, ft)= 0.5 R = A/P S (slope, ft/ft) 0.015 A = cross sectional area n low =0.013 P= wetted perimeter n high =0.013 S = slope of channel V = (1.49/n)Rh2/3S1/2 n = Manning's roughness coeffiQ = V x A Depth, ft Area, sf Wetted Perimete r, ft Hydraulic Radius, ft Velocity, fps Flow, cfs Velocity, fps Flow, cfs 0.5 0.50 2.00 0.25 5.56 2.78 5.56 2.78 T = 1.00 Low N High N d w z 11 z T Clear Data Entry Cells MANNING'S EQUATION for OPEN CHANNEL FLOW Storm Swale #9 Project: Westside Flats Location: Bozeman, MT By: AMK Date: 5/19/2020 Chk By: Date: INPUT z (sideslope)= 4 Mannings Formula z (sideslope)= 4 w (btm width, ft)= 0 Q = (1.486/n)ARh2/3S1/2 d (depth, ft)= 0.75 R = A/P S (slope, ft/ft) 0.005 A = cross sectional area n low =0.035 P= wetted perimeter n high =0.035 S = slope of channel V = (1.49/n)Rh2/3S1/2 n = Manning's roughness coeffiQ = V x A Depth, ft Area, sf Wetted Perimete r, ft Hydraulic Radius, ft Velocity, fps Flow, cfs Velocity, fps Flow, cfs 0.75 2.25 6.18 0.36 1.53 3.44 1.53 3.44 T = 6.00 Low N High N d w z 11 z T Clear Data Entry Cells RETENTION POND #10 REQUIRED VOLUME 1. Calculate Area and Weighted C Factor Contributing Area DA C Area (ft 2 )C * Area LANDSCAPE 10A 0.20 2602 520 HARDSCAPE 10A 0.95 15287 14522 LANDSCAPE 10B 0.20 16010 3202 HARDSCAPE 10B 0.95 2407 2287 Total 36306 20532 C=Weighted C Factor 0.57 2. Calculate Required Volume Q = CIA V=7200Q C = Weighted C Factor 0.57 I = intensity (in/hr) 0.41 (10 yr, 2hr storm) A = Area (acres) 0.83 Q = runoff (cfs) 0.19 V = REQUIRED VOL (ft3)1391 Pond Storage Volume (ft3)1,532 CHASE 10 25-YR OUTFLOW RATE REQUIRED CAPACITY 1. Calculate Area and Weighted C Factor Contributing Area DA C Area (ft 2 )C * Area LANDSCAPE 10A 0.2 2602 520 HARDSCAPE 10A 0.95 15287 14522 LANDSCAPE 10B 0.2 16010 3202 HARDSCAPE 10B 0.95 2407 2287 Total 36306 20532 A = Area (acres) 0.83 C = Weighted C Factor 0.57 2. Calculate Rainfall Intensity (Duration = Max Tc from Contributing Drainage Areas) i = 0.78x-0.64 (25-yr Storm, Fig. I-3, COB Design Standards) x = storm duration (hrs) 0.08 (DA #10B) i = rainfall intensity (in./hr.) 3.83 3. Calculate 25-yr Pond Outflow Rate Q = CiA C = Rational Method Runoff Coefficient 0.57 (calculated above) i = rainfall intensity (in./hr.) 3.83 (calculated above) A = Area (acres) 0.83 (calculated above) Q = 25-yr Pipe Flow Rate (cfs) 1.80 MANNING'S EQUATION for OPEN CHANNEL FLOW Storm Curb #10 Project: Westside Flats Location: Bozeman, MT By: AMK Date: 5/19/2020 Chk By: Date: INPUT z (sideslope)= 0 Mannings Formula z (sideslope)= 0 w (btm width, ft)= 1 Q = (1.486/n)ARh2/3S1/2 d (depth, ft)= 0.5 R = A/P S (slope, ft/ft) 0.015 A = cross sectional area n low =0.013 P= wetted perimeter n high =0.013 S = slope of channel V = (1.49/n)Rh2/3S1/2 n = Manning's roughness coeffiQ = V x A Depth, ft Area, sf Wetted Perimete r, ft Hydraulic Radius, ft Velocity, fps Flow, cfs Velocity, fps Flow, cfs 0.5 0.50 2.00 0.25 5.56 2.78 5.56 2.78 T = 1.00 Low N High N d w z 11 z T Clear Data Entry Cells MANNING'S EQUATION for OPEN CHANNEL FLOW Storm Swale #10 Project: Westside Flats Location: Bozeman, MT By: AMK Date: 5/19/2020 Chk By: Date: INPUT z (sideslope)= 4 Mannings Formula z (sideslope)= 4 w (btm width, ft)= 0 Q = (1.486/n)ARh2/3S1/2 d (depth, ft)= 0.75 R = A/P S (slope, ft/ft) 0.0075 A = cross sectional area n low =0.035 P= wetted perimeter n high =0.035 S = slope of channel V = (1.49/n)Rh2/3S1/2 n = Manning's roughness coeffiQ = V x A Depth, ft Area, sf Wetted Perimete r, ft Hydraulic Radius, ft Velocity, fps Flow, cfs Velocity, fps Flow, cfs 0.75 2.25 6.18 0.36 1.87 4.22 1.87 4.22 T = 6.00 Low N High N d w z 11 z T Clear Data Entry Cells RETENTION POND #11 REQUIRED VOLUME 1. Calculate Area and Weighted C Factor Contributing Area DA C Area (ft2 )C * Area Landscape 11A 0.20 1647 329 Hardscape 11A 0.95 6151 5844 Total 7798 6173 C=Weighted C Factor 0.79 2. Calculate Required Volume Q = CIA V=7200Q C = Weighted C Factor 0.79 I = intensity (in/hr) 0.41 (10 yr, 2hr storm) A = Area (acres) 0.18 Q = runoff (cfs) 0.06 V = REQUIRED VOL (ft3)418 Pond Storage Volume (ft3)593