Download presentation
Presentation is loading. Please wait.
1
Find: Qp [cfs] 13 17 21 26 tc Area C [acre] [min] Area Area B A 7 0.65
35 A B 10 0.40 45 C 3 0.90 25 Area Q C 13 17 21 26 in hr 150 drain i = Find the peak flowrate, Q sub p, in cubic feet per second. [pause] In this problem, --- pipe tc[min]+20
![Find: Qp [cfs] tc Area C [acre] [min] Area Area B A](http://slideplayer.com/slide/15748492/88/images/1/Find%3A+Qp+%5Bcfs%5D+tc+Area+C+%5Bacre%5D+%5Bmin%5D+Area+Area+B+A.jpg "35. A. B C Area. Q. C in. hr drain. i. = Find the peak flowrate, Q sub p, in cubic feet per second. [pause] In this problem, --- pipe. tc[min]+20.")
2
Find: Qp [cfs] 13 17 21 26 tc Area C [acre] [min] Area Area B A 7 0.65
35 A B 10 0.40 45 C 3 0.90 25 Area Q C 13 17 21 26 in hr 150 drain i = 3 watersheds drain to a common outlet, and the runoff is conveyed offsite by a drain pipe. pipe tc[min]+20
![Find: Qp [cfs] tc Area C [acre] [min] Area Area B A](http://slideplayer.com/slide/15748492/88/images/2/Find%3A+Qp+%5Bcfs%5D+tc+Area+C+%5Bacre%5D+%5Bmin%5D+Area+Area+B+A.jpg "35. A. B C Area. Q. C in. hr drain. i. = 3 watersheds drain to a common outlet, and the runoff is conveyed offsite by a drain pipe. pipe. tc[min]+20.")
3
Find: Qp [cfs] 13 17 21 26 tc Area C [acre] [min] Area Area B A 7 0.65
35 A B 10 0.40 45 C 3 0.90 25 Area Q C 13 17 21 26 in hr 150 drain i = The area, runoff coefficient and time of concentration for each watershed, are provided in the data table. pipe tc[min]+20
![Find: Qp [cfs] tc Area C [acre] [min] Area Area B A](http://slideplayer.com/slide/15748492/88/images/3/Find%3A+Qp+%5Bcfs%5D+tc+Area+C+%5Bacre%5D+%5Bmin%5D+Area+Area+B+A.jpg "35. A. B C Area. Q. C in. hr drain. i. = The area, runoff coefficient and time of concentration for each watershed, are provided in the data table. pipe. tc[min]+20.")
4
Find: Qp [cfs] 13 17 21 26 tc Area C [acre] [min] Area Area B A 7 0.65
35 A B 10 0.40 45 C 3 0.90 25 Area Q C 13 17 21 26 in hr 150 drain i = The intensity curve for the given storm is also provided. pipe tc[min]+20
![Find: Qp [cfs] tc Area C [acre] [min] Area Area B A](http://slideplayer.com/slide/15748492/88/images/4/Find%3A+Qp+%5Bcfs%5D+tc+Area+C+%5Bacre%5D+%5Bmin%5D+Area+Area+B+A.jpg "35. A. B C Area. Q. C in. hr drain. i. = The intensity curve for the given storm is also provided. pipe. tc[min]+20.")
5
Find: Qp [cfs] QP =1.008 * C * i tc Area C [acre] [min] Area Area B A
7 0.65 35 A B 10 0.40 45 C 3 0.90 25 Area Q C in hr 150 drain i = The peak flowrate, Q sub p, in cubic feet per second equals pipe tc[min]+20 peak flowrate QP ft3 in =1.008 * C * i * A [acres] s hr
![Find: Qp [cfs] QP =1.008 * C * i tc Area C [acre] [min] Area Area B A](http://slideplayer.com/slide/15748492/88/images/5/Find%3A+Qp+%5Bcfs%5D+QP+%3D1.008+%2A+C+%2A+i+tc+Area+C+%5Bacre%5D+%5Bmin%5D+Area+Area+B+A.jpg "A. B C Area. Q. C. in. hr drain. i. = The peak flowrate, Q sub p, in cubic feet per second equals pipe. tc[min]+20. peak flowrate. QP. ft3. in. =1.008 * C * i. * A [acres] s. hr.")
6
Find: Qp [cfs] QP =1.008 * C * i tc Area C [acre] [min] Area Area B A
7 0.65 35 A B 10 0.40 45 C 3 0.90 25 Area Q C in hr 150 drain i = times the runoff coefficient, C, --- pipe tc[min]+20 peak flowrate in QP ft3 =1.008 * C * i * A [acres] s hr runoff coefficent
![Find: Qp [cfs] QP =1.008 * C * i tc Area C [acre] [min] Area Area B A](http://slideplayer.com/slide/15748492/88/images/6/Find%3A+Qp+%5Bcfs%5D+QP+%3D1.008+%2A+C+%2A+i+tc+Area+C+%5Bacre%5D+%5Bmin%5D+Area+Area+B+A.jpg "A. B C Area. Q. C. in. hr drain. i. = times the runoff coefficient, C, --- pipe. tc[min]+20. peak flowrate. in. QP. ft3. =1.008 * C * i. * A [acres] s. hr. runoff coefficent.")
7
Find: Qp [cfs] QP =1.008 * C * i tc Area C [acre] [min] Area Area B A
7 0.65 35 A B 10 0.40 45 C 3 0.90 25 Area Q C in hr 150 drain i = times times the intensity, i, in inches per hour, ---- pipe intensity tc[min]+20 peak flowrate ft3 in QP =1.008 * C * i * A [acres] s hr runoff coefficent
![Find: Qp [cfs] QP =1.008 * C * i tc Area C [acre] [min] Area Area B A](http://slideplayer.com/slide/15748492/88/images/7/Find%3A+Qp+%5Bcfs%5D+QP+%3D1.008+%2A+C+%2A+i+tc+Area+C+%5Bacre%5D+%5Bmin%5D+Area+Area+B+A.jpg "A. B C Area. Q. C. in. hr drain. i. = times times the intensity, i, in inches per hour, ---- pipe. intensity. tc[min]+20. peak flowrate. ft3. in. QP. =1.008 * C * i. * A [acres] s. hr. runoff coefficent.")
8
Find: Qp [cfs] QP =1.008 * C * i tc Area C [acre] [min] Area Area B A
7 0.65 35 A B 10 0.40 45 C 3 0.90 25 Area Q C in hr 150 drain i = times the area, A, in acres. pipe intensity tc[min]+20 peak flowrate in QP ft3 =1.008 * C * i * A [acres] s hr area runoff coefficent
![Find: Qp [cfs] QP =1.008 * C * i tc Area C [acre] [min] Area Area B A](http://slideplayer.com/slide/15748492/88/images/8/Find%3A+Qp+%5Bcfs%5D+QP+%3D1.008+%2A+C+%2A+i+tc+Area+C+%5Bacre%5D+%5Bmin%5D+Area+Area+B+A.jpg "A. B C Area. Q. C. in. hr drain. i. = times the area, A, in acres. pipe. intensity. tc[min]+20. peak flowrate. in. QP. ft3. =1.008 * C * i. * A [acres] s. hr. area. runoff coefficent.")
9
Find: Qp [cfs] QP =1.008 * C * i tc Area C [acre] [min] Area Area B A
7 0.65 35 A B 10 0.40 45 C 3 0.90 25 Area Q C in hr 150 drain i = Considering the precision of the factors, --- pipe intensity tc[min]+20 peak flowrate in QP ft3 =1.008 * C * i * A [acres] s hr area runoff coefficent
![Find: Qp [cfs] QP =1.008 * C * i tc Area C [acre] [min] Area Area B A](http://slideplayer.com/slide/15748492/88/images/9/Find%3A+Qp+%5Bcfs%5D+QP+%3D1.008+%2A+C+%2A+i+tc+Area+C+%5Bacre%5D+%5Bmin%5D+Area+Area+B+A.jpg "A. B C Area. Q. C. in. hr drain. i. = Considering the precision of the factors, --- pipe. intensity. tc[min]+20. peak flowrate. in. QP. ft3. =1.008 * C * i. * A [acres] s. hr. area. runoff coefficent.")
10
Find: Qp [cfs] QP =1.008 * C * i tc Area C [acre] [min] Area Area B A
7 0.65 35 A B 10 0.40 45 C 3 0.90 25 Area Q C in hr 150 drain i = the terms is usually rounded to 1, and the equation becomes, --- pipe intensity tc[min]+20 peak flowrate in QP ft3 =1.008 * C * i * A [acres] s hr area runoff coefficent
![Find: Qp [cfs] QP =1.008 * C * i tc Area C [acre] [min] Area Area B A](http://slideplayer.com/slide/15748492/88/images/10/Find%3A+Qp+%5Bcfs%5D+QP+%3D1.008+%2A+C+%2A+i+tc+Area+C+%5Bacre%5D+%5Bmin%5D+Area+Area+B+A.jpg "A. B C Area. Q. C. in. hr drain. i. = the terms is usually rounded to 1, and the equation becomes, --- pipe. intensity. tc[min]+20. peak flowrate. in. QP. ft3. =1.008 * C * i. * A [acres] s. hr. area. runoff coefficent.")
11
Find: Qp [cfs] QP = C * i tc Area C [acre] [min] Area Area B A 7 0.65
35 A B 10 0.40 45 C 3 0.90 25 Area Q C in hr 150 drain i = Q sub p, equals C times i times A. [pause] Let’s begin with the area, --- pipe intensity tc[min]+20 peak flowrate in QP ft3 = C * i * A [acres] s hr area runoff coefficent
![Find: Qp [cfs] QP = C * i tc Area C [acre] [min] Area Area B A](http://slideplayer.com/slide/15748492/88/images/11/Find%3A+Qp+%5Bcfs%5D+QP+%3D+C+%2A+i+tc+Area+C+%5Bacre%5D+%5Bmin%5D+Area+Area+B+A.jpg "35. A. B C Area. Q. C. in. hr drain. i. = Q sub p, equals C times i times A. [pause] Let’s begin with the area, --- pipe. intensity. tc[min]+20. peak flowrate. in. QP. ft3. = C * i. * A [acres] s. hr. area. runoff coefficent.")
12
Find: Qp [cfs] A = AA + AB + AC QP = C * i tc Area C [acre] [min] Area
7 0.65 35 A B 10 0.40 45 C 3 0.90 25 Area Q C in hr 150 drain i = A. [pause] The total area equals the sum of watershed areas A, B and C. pipe intensity tc[min]+20 peak flowrate QP ft3 in A = AA + AB + AC = C * i * A [acres] s hr area runoff coefficent
![Find: Qp [cfs] A = AA + AB + AC QP = C * i tc Area C [acre] [min] Area](http://slideplayer.com/slide/15748492/88/images/12/Find%3A+Qp+%5Bcfs%5D+A+%3D+AA+%2B+AB+%2B+AC+QP+%3D+C+%2A+i+tc+Area+C+%5Bacre%5D+%5Bmin%5D+Area.jpg "A. B C Area. Q. C. in. hr drain. i. = A. [pause] The total area equals the sum of watershed areas A, B and C. pipe. intensity. tc[min]+20. peak flowrate. QP. ft3. in. A = AA + AB + AC. = C * i. * A [acres] s. hr. area. runoff coefficent.")
13
Find: Qp [cfs] A = AA + AB + AC QP = C * i tc Area C [acre] [min] Area
7 0.65 35 A B 10 0.40 45 C 3 0.90 25 Area Q C in hr 150 drain i = After plugging in the values, from the data table, we find --- pipe intensity tc[min]+20 peak flowrate QP ft3 in A = AA + AB + AC = C * i * A [acres] s hr area runoff coefficent
![Find: Qp [cfs] A = AA + AB + AC QP = C * i tc Area C [acre] [min] Area](http://slideplayer.com/slide/15748492/88/images/13/Find%3A+Qp+%5Bcfs%5D+A+%3D+AA+%2B+AB+%2B+AC+QP+%3D+C+%2A+i+tc+Area+C+%5Bacre%5D+%5Bmin%5D+Area.jpg "A. B C Area. Q. C. in. hr drain. i. = After plugging in the values, from the data table, we find --- pipe. intensity. tc[min]+20. peak flowrate. QP. ft3. in. A = AA + AB + AC. = C * i. * A [acres] s. hr. area. runoff coefficent.")
14
Find: Qp [cfs] A = AA + AB + AC QP = C * i A = 20 [acres] tc Area C
[min] Area Area B A 7 0.65 35 A B 10 0.40 45 C 3 0.90 25 Area Q C in hr 150 drain i = the total area, equals, 20 acres. pipe intensity tc[min]+20 peak flowrate QP ft3 in A = AA + AB + AC = C * i * A [acres] s hr A = 20 [acres] area runoff coefficent
![Find: Qp [cfs] A = AA + AB + AC QP = C * i A = 20 [acres] tc Area C](http://slideplayer.com/slide/15748492/88/images/14/Find%3A+Qp+%5Bcfs%5D+A+%3D+AA+%2B+AB+%2B+AC+QP+%3D+C+%2A+i+A+%3D+20+%5Bacres%5D+tc+Area+C.jpg "[min] Area. Area. B. A A. B C Area. Q. C. in. hr drain. i. = the total area, equals, 20 acres. pipe. intensity. tc[min]+20. peak flowrate. QP. ft3. in. A = AA + AB + AC. = C * i. * A [acres] s. hr. A = 20 [acres] area. runoff coefficent.")
15
Find: Qp [cfs] QP = C * i 20 tc Area C [acre] [min] Area Area B A 7
0.65 35 A B 10 0.40 45 C 3 0.90 25 Area Q C in hr 150 drain i = Next, we’ll solve for the runoff coefficient, C, which equals --- pipe intensity tc[min]+20 peak flowrate in QP ft3 = C * i * A [acres] s hr 20 runoff coefficent
![Find: Qp [cfs] QP = C * i 20 tc Area C [acre] [min] Area Area B A 7](http://slideplayer.com/slide/15748492/88/images/15/Find%3A+Qp+%5Bcfs%5D+QP+%3D+C+%2A+i+20+tc+Area+C+%5Bacre%5D+%5Bmin%5D+Area+Area+B+A+7.jpg "A. B C Area. Q. C. in. hr drain. i. = Next, we’ll solve for the runoff coefficient, C, which equals --- pipe. intensity. tc[min]+20. peak flowrate. in. QP. ft3. = C * i. * A [acres] s. hr. 20. runoff coefficent.")
16
Find: Qp [cfs] Σ C *A C = Σ A QP = C * i 20 tc Area C [acre] [min]
B A 7 0.65 35 A B 10 0.40 45 C 3 0.90 25 Area Q C Σ C *A C = drain the average of the runoff coefficients from all contributing watersheds, --- Σ A pipe intensity peak flowrate ft3 in QP = C * i * A [acres] s hr 20 runoff coefficent
![Find: Qp [cfs] Σ C *A C = Σ A QP = C * i 20 tc Area C [acre] [min]](http://slideplayer.com/slide/15748492/88/images/16/Find%3A+Qp+%5Bcfs%5D+%CE%A3+C+%2AA+C+%3D+%CE%A3+A+QP+%3D+C+%2A+i+20+tc+Area+C+%5Bacre%5D+%5Bmin%5D.jpg "B. A A. B C Area. Q. C. Σ C *A. C = drain. the average of the runoff coefficients from all contributing watersheds, --- Σ A. pipe. intensity. peak flowrate. ft3. in. QP. = C * i. * A [acres] s. hr. 20. runoff coefficent.")
17
Find: Qp [cfs] Σ C *A C = Σ A CA*AA+CB*AB+CC*AC C = AA+AB+AC QP
tc Area C [acre] [min] Area Area B A 7 0.65 35 A B 10 0.40 45 C 3 0.90 25 Area Q C Σ C *A C = drain weighted by area. Plugging in the values for C and A, --- Σ A pipe intensity CA*AA+CB*AB+CC*AC peak flowrate C = AA+AB+AC in QP ft3 = C * i * A [acres] s hr 20 runoff coefficent
![Find: Qp [cfs] Σ C *A C = Σ A CA*AA+CB*AB+CC*AC C = AA+AB+AC QP](http://slideplayer.com/slide/15748492/88/images/17/Find%3A+Qp+%5Bcfs%5D+%CE%A3+C+%2AA+C+%3D+%CE%A3+A+CA%2AAA%2BCB%2AAB%2BCC%2AAC+C+%3D+AA%2BAB%2BAC+QP.jpg "tc. Area. C. [acre] [min] Area. Area. B. A A. B C Area. Q. C. Σ C *A. C = drain. weighted by area. Plugging in the values for C and A, --- Σ A. pipe. intensity. CA*AA+CB*AB+CC*AC. peak flowrate. C = AA+AB+AC. in. QP. ft3. = C * i. * A [acres] s. hr. 20. runoff coefficent.")
18
Find: Qp [cfs] Σ C *A C = Σ A CA*AA+CB*AB+CC*AC C = AA+AB+AC QP
tc Area C [acre] [min] Area Area B A 7 0.65 35 A B 10 0.40 45 C 3 0.90 25 Area Q C Σ C *A C = drain the weight C value equals, --- Σ A pipe intensity CA*AA+CB*AB+CC*AC peak flowrate C = AA+AB+AC in QP ft3 = C * i * A [acres] s hr 20 runoff coefficent
![Find: Qp [cfs] Σ C *A C = Σ A CA*AA+CB*AB+CC*AC C = AA+AB+AC QP](http://slideplayer.com/slide/15748492/88/images/18/Find%3A+Qp+%5Bcfs%5D+%CE%A3+C+%2AA+C+%3D+%CE%A3+A+CA%2AAA%2BCB%2AAB%2BCC%2AAC+C+%3D+AA%2BAB%2BAC+QP.jpg "tc. Area. C. [acre] [min] Area. Area. B. A A. B C Area. Q. C. Σ C *A. C = drain. the weight C value equals, --- Σ A. pipe. intensity. CA*AA+CB*AB+CC*AC. peak flowrate. C = AA+AB+AC. in. QP. ft3. = C * i. * A [acres] s. hr. 20. runoff coefficent.")
19
Find: Qp [cfs] Σ C *A C = Σ A CA*AA+CB*AB+CC*AC C = AA+AB+AC QP
tc Area C [acre] [min] Area Area B A 7 0.65 35 A B 10 0.40 45 C 3 0.90 25 Area Q C Σ C *A C = drain 0.563. Σ A pipe intensity CA*AA+CB*AB+CC*AC peak flowrate C = AA+AB+AC ft3 in QP = C * i * A [acres] s hr C =0.563 20 runoff coefficent
![Find: Qp [cfs] Σ C *A C = Σ A CA*AA+CB*AB+CC*AC C = AA+AB+AC QP](http://slideplayer.com/slide/15748492/88/images/19/Find%3A+Qp+%5Bcfs%5D+%CE%A3+C+%2AA+C+%3D+%CE%A3+A+CA%2AAA%2BCB%2AAB%2BCC%2AAC+C+%3D+AA%2BAB%2BAC+QP.jpg "tc. Area. C. [acre] [min] Area. Area. B. A A. B C Area. Q. C. Σ C *A. C = drain Σ A. pipe. intensity. CA*AA+CB*AB+CC*AC. peak flowrate. C = AA+AB+AC. ft3. in. QP. = C * i. * A [acres] s. hr. C = runoff coefficent.")
20
Find: Qp [cfs] QP = C * i 20 tc Area C [acre] [min] Area Area B A 7
0.65 35 A B 10 0.40 45 C 3 0.90 25 Area Q C in hr 150 drain i = --- pipe intensity tc[min]+20 peak flowrate in QP ft3 = C * i * A [acres] s hr 20 0.563
![Find: Qp [cfs] QP = C * i 20 tc Area C [acre] [min] Area Area B A 7](http://slideplayer.com/slide/15748492/88/images/20/Find%3A+Qp+%5Bcfs%5D+QP+%3D+C+%2A+i+20+tc+Area+C+%5Bacre%5D+%5Bmin%5D+Area+Area+B+A+7.jpg "A. B C Area. Q. C. in. hr drain. i. = --- pipe. intensity. tc[min]+20. peak flowrate. in. QP. ft3. = C * i. * A [acres] s. hr")
21
Find: Qp [cfs] QP = C * i 20 tc Area C [acre] [min] Area Area B A 7
0.65 35 A B 10 0.40 45 C 3 0.90 25 Area Q C in hr 150 drain i = The last variable to solve is i, the intensity. pipe intensity tc[min]+20 peak flowrate in QP ft3 = C * i * A [acres] s hr 20 0.563
![Find: Qp [cfs] QP = C * i 20 tc Area C [acre] [min] Area Area B A 7](http://slideplayer.com/slide/15748492/88/images/21/Find%3A+Qp+%5Bcfs%5D+QP+%3D+C+%2A+i+20+tc+Area+C+%5Bacre%5D+%5Bmin%5D+Area+Area+B+A+7.jpg "A. B C Area. Q. C. in. hr drain. i. = The last variable to solve is i, the intensity. pipe. intensity. tc[min]+20. peak flowrate. in. QP. ft3. = C * i. * A [acres] s. hr")
22
Find: Qp [cfs] QP = C * i 20 tc Area C [acre] [min] Area Area B A 7
0.65 35 A B 10 0.40 45 C 3 0.90 25 Area Q C 150 drain in i = The storm intensity is a function of the time of concentration, t sub c, The intensity decreases asymptotically, with t sub c. pipe hr intensity tc[min]+20 peak flowrate i QP ft3 in = C * i * A [acres] s hr 20 0.563 tc
![Find: Qp [cfs] QP = C * i 20 tc Area C [acre] [min] Area Area B A 7](http://slideplayer.com/slide/15748492/88/images/22/Find%3A+Qp+%5Bcfs%5D+QP+%3D+C+%2A+i+20+tc+Area+C+%5Bacre%5D+%5Bmin%5D+Area+Area+B+A+7.jpg "A. B C Area. Q. C drain. in. i. = The storm intensity is a function of the time of concentration, t sub c, The intensity decreases asymptotically, with t sub c. pipe. hr. intensity. tc[min]+20. peak flowrate. i. QP. ft3. in. = C * i. * A [acres] s. hr tc.")
23
Find: Qp [cfs] QP = C * i 20 tc Area C [acre] [min] Area Area B A 7
0.65 35 A B 10 0.40 45 C 3 0.90 25 Area Q C 150 drain in i = For the given equation, we should use the maximum t sub c value, --- pipe hr intensity tc[min]+20 peak flowrate i QP ft3 in = C * i * A [acres] s hr 20 0.563 tc
![Find: Qp [cfs] QP = C * i 20 tc Area C [acre] [min] Area Area B A 7](http://slideplayer.com/slide/15748492/88/images/23/Find%3A+Qp+%5Bcfs%5D+QP+%3D+C+%2A+i+20+tc+Area+C+%5Bacre%5D+%5Bmin%5D+Area+Area+B+A+7.jpg "A. B C Area. Q. C drain. in. i. = For the given equation, we should use the maximum t sub c value, --- pipe. hr. intensity. tc[min]+20. peak flowrate. i. QP. ft3. in. = C * i. * A [acres] s. hr tc.")
24
Find: Qp [cfs] QP = C * i 20 tc Area C [acre] [min] Area Area B A 7
0.65 35 A B 10 0.40 45 C 3 0.90 25 Area Q C drain in 150 i = for all contributing watersheds. This mean runoff from all areas --- pipe hr intensity tc[min]+20 peak flowrate tc=max(tc,A,tc,B,tc,C) QP ft3 in = C * i * A [acres] s hr 20 0.563
![Find: Qp [cfs] QP = C * i 20 tc Area C [acre] [min] Area Area B A 7](http://slideplayer.com/slide/15748492/88/images/24/Find%3A+Qp+%5Bcfs%5D+QP+%3D+C+%2A+i+20+tc+Area+C+%5Bacre%5D+%5Bmin%5D+Area+Area+B+A+7.jpg "A. B C Area. Q. C. drain. in i. = for all contributing watersheds. This mean runoff from all areas --- pipe. hr. intensity. tc[min]+20. peak flowrate. tc=max(tc,A,tc,B,tc,C) QP. ft3. in. = C * i. * A [acres] s. hr")
25
Find: Qp [cfs] QP = C * i 20 tc Area C [acre] [min] Area Area B A 7
0.65 35 A B 10 0.40 45 C 3 0.90 25 Area Q C 150 drain in i = of all watersheds will contribute to the peak flowrate, Q sub p. [pause] pipe hr intensity tc[min]+20 peak flowrate tc=max(tc,A,tc,B,tc,C) QP ft3 in = C * i * A [acres] =max(35, 45, 25) s hr 20 0.563
![Find: Qp [cfs] QP = C * i 20 tc Area C [acre] [min] Area Area B A 7](http://slideplayer.com/slide/15748492/88/images/25/Find%3A+Qp+%5Bcfs%5D+QP+%3D+C+%2A+i+20+tc+Area+C+%5Bacre%5D+%5Bmin%5D+Area+Area+B+A+7.jpg "A. B C Area. Q. C drain. in. i. = of all watersheds will contribute to the peak flowrate, Q sub p. [pause] pipe. hr. intensity. tc[min]+20. peak flowrate. tc=max(tc,A,tc,B,tc,C) QP. ft3. in. = C * i. * A [acres] =max(35, 45, 25) s. hr")
26
Find: Qp [cfs] QP = C * i 20 tc Area C [acre] [min] Area Area B A 7
0.65 35 A B 10 0.40 45 C 3 0.90 25 Area Q C in 150 drain i = The time of concentration for this problem is 45 minutes. pipe hr intensity tc[min]+20 peak flowrate tc=max(tc,A,tc,B,tc,C) in QP ft3 = C * i * A [acres] =max(35, 45, 25) s hr 20 =45 [min] 0.563
![Find: Qp [cfs] QP = C * i 20 tc Area C [acre] [min] Area Area B A 7](http://slideplayer.com/slide/15748492/88/images/26/Find%3A+Qp+%5Bcfs%5D+QP+%3D+C+%2A+i+20+tc+Area+C+%5Bacre%5D+%5Bmin%5D+Area+Area+B+A+7.jpg "A. B C Area. Q. C. in drain. i. = The time of concentration for this problem is 45 minutes. pipe. hr. intensity. tc[min]+20. peak flowrate. tc=max(tc,A,tc,B,tc,C) in. QP. ft3. = C * i. * A [acres] =max(35, 45, 25) s. hr. 20. =45 [min]")
27
Find: Qp [cfs] QP = C * i 20 tc Area C [acre] [min] Area Area B A 7
0.65 35 A B 10 0.40 45 C 3 0.90 25 Area Q C in 150 drain i = Plugging 45 minutes into the IDF curve, --- pipe hr intensity tc[min]+20 peak flowrate tc=max(tc,A,tc,B,tc,C) in QP ft3 = C * i * A [acres] =max(35, 45, 25) s hr 20 =45 [min] 0.563
![Find: Qp [cfs] QP = C * i 20 tc Area C [acre] [min] Area Area B A 7](http://slideplayer.com/slide/15748492/88/images/27/Find%3A+Qp+%5Bcfs%5D+QP+%3D+C+%2A+i+20+tc+Area+C+%5Bacre%5D+%5Bmin%5D+Area+Area+B+A+7.jpg "A. B C Area. Q. C. in drain. i. = Plugging 45 minutes into the IDF curve, --- pipe. hr. intensity. tc[min]+20. peak flowrate. tc=max(tc,A,tc,B,tc,C) in. QP. ft3. = C * i. * A [acres] =max(35, 45, 25) s. hr. 20. =45 [min]")
28
Find: Qp [cfs] QP = C * i 20 tc Area C [acre] [min] Area Area B A 7
0.65 35 A B 10 0.40 45 C 3 0.90 25 Area Q C in 150 drain 2.308 = the storm intensity equals 2.308, inches per hour. pipe hr intensity tc[min]+20 peak flowrate tc=max(tc,A,tc,B,tc,C) in QP ft3 = C * i * A [acres] =max(35, 45, 25) s hr 20 =45 [min] 0.563
![Find: Qp [cfs] QP = C * i 20 tc Area C [acre] [min] Area Area B A 7](http://slideplayer.com/slide/15748492/88/images/28/Find%3A+Qp+%5Bcfs%5D+QP+%3D+C+%2A+i+20+tc+Area+C+%5Bacre%5D+%5Bmin%5D+Area+Area+B+A+7.jpg "A. B C Area. Q. C. in drain = the storm intensity equals 2.308, inches per hour. pipe. hr. intensity. tc[min]+20. peak flowrate. tc=max(tc,A,tc,B,tc,C) in. QP. ft3. = C * i. * A [acres] =max(35, 45, 25) s. hr. 20. =45 [min]")
29
Find: Qp [cfs] QP = C * i 20 tc Area C [acre] [min] Area Area B A 7
0.65 35 A B 10 0.40 45 C 3 0.90 25 Area Q C in 150 drain 2.308 = Returning to the rational equation, we can compute the peak flowrate, by --- pipe hr 2.308 tc[min]+20 peak flowrate tc=max(tc,A,tc,B,tc,C) in QP ft3 = C * i * A [acres] =max(35, 45, 25) s hr 20 =45 [min] 0.563
![Find: Qp [cfs] QP = C * i 20 tc Area C [acre] [min] Area Area B A 7](http://slideplayer.com/slide/15748492/88/images/29/Find%3A+Qp+%5Bcfs%5D+QP+%3D+C+%2A+i+20+tc+Area+C+%5Bacre%5D+%5Bmin%5D+Area+Area+B+A+7.jpg "A. B C Area. Q. C. in drain = Returning to the rational equation, we can compute the peak flowrate, by --- pipe. hr tc[min]+20. peak flowrate. tc=max(tc,A,tc,B,tc,C) in. QP. ft3. = C * i. * A [acres] =max(35, 45, 25) s. hr. 20. =45 [min]")
30
Find: Qp [cfs] QP = C * i 20 tc Area C [acre] [min] Area Area B A 7
0.65 35 A B 10 0.40 45 C 3 0.90 25 Area Q C in 150 drain 2.308 = plugging in our values for C, i and A, and the peak flowrate equals, --- pipe hr 2.308 tc[min]+20 peak flowrate tc=max(tc,A,tc,B,tc,C) in QP ft3 = C * i * A [acres] =max(35, 45, 25) s hr 20 =45 [min] 0.563
![Find: Qp [cfs] QP = C * i 20 tc Area C [acre] [min] Area Area B A 7](http://slideplayer.com/slide/15748492/88/images/30/Find%3A+Qp+%5Bcfs%5D+QP+%3D+C+%2A+i+20+tc+Area+C+%5Bacre%5D+%5Bmin%5D+Area+Area+B+A+7.jpg "A. B C Area. Q. C. in drain = plugging in our values for C, i and A, and the peak flowrate equals, --- pipe. hr tc[min]+20. peak flowrate. tc=max(tc,A,tc,B,tc,C) in. QP. ft3. = C * i. * A [acres] =max(35, 45, 25) s. hr. 20. =45 [min]")
31
Find: Qp [cfs] QP= 25.99 tc Area C [acre] [min] Area Area B A 7 0.65
35 A B 10 0.40 45 C 3 0.90 25 Area Q C 150 drain in 2.308 = 25.99 cubic feet per second. pipe hr tc[min]+20 peak flowrate tc=max(tc,A,tc,B,tc,C) ft3 s QP= 25.99 =max(35, 45, 25) =45 [min]
![Find: Qp [cfs] QP= tc Area C [acre] [min] Area Area B A](http://slideplayer.com/slide/15748492/88/images/31/Find%3A+Qp+%5Bcfs%5D+QP%3D+tc+Area+C+%5Bacre%5D+%5Bmin%5D+Area+Area+B+A.jpg "35. A. B C Area. Q. C drain. in = cubic feet per second. pipe. hr. tc[min]+20. peak flowrate. tc=max(tc,A,tc,B,tc,C) ft3. s. QP= =max(35, 45, 25) =45 [min]")
32
Find: Qp [cfs] 13 17 21 26 QP= 25.99 tc Area C [acre] [min] Area Area
B A 7 0.65 35 A B 10 0.40 45 C 3 0.90 25 Area Q C 13 17 21 26 drain Looking over the possible solutions, --- pipe peak flowrate ft3 s QP= 25.99
![Find: Qp [cfs] QP= tc Area C [acre] [min] Area Area](http://slideplayer.com/slide/15748492/88/images/32/Find%3A+Qp+%5Bcfs%5D+QP%3D+tc+Area+C+%5Bacre%5D+%5Bmin%5D+Area+Area.jpg "B. A A. B C Area. Q. C drain. Looking over the possible solutions, --- pipe. peak flowrate. ft3. s. QP=")
33
Find: Qp [cfs] AnswerD 13 17 21 26 QP= 25.99 tc Area C [acre] [min]
B A 7 0.65 35 A B 10 0.40 45 C 3 0.90 25 Area Q C 13 17 21 26 drain the answer is D. pipe peak flowrate ft3 s QP= 25.99 AnswerD
![Find: Qp [cfs] AnswerD QP= tc Area C [acre] [min]](http://slideplayer.com/slide/15748492/88/images/33/Find%3A+Qp+%5Bcfs%5D+Answer%EF%83%A0D+QP%3D+tc+Area+C+%5Bacre%5D+%5Bmin%5D.jpg "B. A A. B C Area. Q. C drain. the answer is D. pipe. peak flowrate. ft3. s. QP= AnswerD.")
34
? Index σ’v = Σ γ d γT=100 [lb/ft3] +γclay dclay 1
Find: σ’v at d = 30 feet (1+wc)*γw wc+(1/SG) σ’v = Σ γ d d Sand 10 ft γT=100 [lb/ft3] 100 [lb/ft3] 10 [ft] 20 ft Clay = γsand dsand +γclay dclay A W S V [ft3] W [lb] 40 ft text wc = 37% ? Δh 20 [ft] (5 [cm])2 * π/4
![Index σ’v = Σ γ d γT=100 [lb/ft3] +γclay dclay 1](http://slideplayer.com/slide/15748492/88/images/34/Index+%CF%83%E2%80%99v+%3D+%CE%A3+%CE%B3+d+%CE%B3T%3D100+%5Blb%2Fft3%5D+%2B%CE%B3clay+dclay+1.jpg "Find: σ’v at d = 30 feet. (1+wc)*γw. wc+(1/SG) σ’v = Σ γ d. d. Sand. 10 ft. γT=100 [lb/ft3] 100 [lb/ft3] 10 [ft] 20 ft. Clay. = γsand dsand. +γclay dclay. A. W. S. V [ft3] W [lb] 40 ft. text. wc = 37% Δh. 20 [ft] (5 [cm])2 * π/4.")
Similar presentations
![Find: max L [ft] 470 1,330 1,780 2,220 Pmin=50 [psi] hP=130 [ft] tank](/90/14720334/big_thumb.jpg "Find: max L [ft] 470 1,330 1,780 2,220 Pmin=50 [psi] hP=130 [ft] tank>")
![Find: y1 Q=400 [gpm] 44 Sand y2 y1 r1 r2 unconfined Q](/90/14737872/big_thumb.jpg "Find: y1 Q=400 [gpm] 44 Sand y2 y1 r1 r2 unconfined Q>")
![Find: QC [L/s] ,400 Δh=20 [m] Tank pipe A 1 pipe B Tank 2](/90/14830890/big_thumb.jpg "Find: QC [L/s] ,400 Δh=20 [m] Tank pipe A 1 pipe B Tank 2>")
![Find: DOB mg L A B C chloride= Stream A C Q [m3/s]](/90/14830900/big_thumb.jpg "Find: DOB mg L A B C chloride= Stream A C Q [m3/s]>")
![Find: Phome [psi] 40 C) 60 B) 50 D) 70 ft s v=5 C=100](/90/14852656/big_thumb.jpg "Find: Phome [psi] 40 C) 60 B) 50 D) 70 ft s v=5 C=100>")