reservoir b in the figure receives 0.09 m^3/s of flow. Properties of each pipe: Pipe # 1: Length = 1800m, Diameter = 450 mm, f = 0.0204 Pipe # 2: Length = 650m, Diameter = 250 mm, f = 0.0177 Pipe # 3: Length = 700m, Diameter = 400 mm, f = 0.0226 Elevation A = 150 m. Elevation C = 60 m. Determine the following: 1. Flow in Pipe # 3 a. 0.50273 b. 0.51946 c. 0.46104 d. 0.41259 e. non of the above 2. headloss in Pipe # 2 a. 7.882 b. 8.660 c. 7.178 d. 7.243 e. none of the above 3. elevation of reservoir B a. 98.134 b. 81. 431 c. 84.370 d. 87.875 e. none of the above
reservoir b in the figure receives 0.09 m^3/s of flow. Properties of each pipe: Pipe # 1: Length = 1800m, Diameter = 450 mm, f = 0.0204 Pipe # 2: Length = 650m, Diameter = 250 mm, f = 0.0177 Pipe # 3: Length = 700m, Diameter = 400 mm, f = 0.0226 Elevation A = 150 m. Elevation C = 60 m. Determine the following: 1. Flow in Pipe # 3 a. 0.50273 b. 0.51946 c. 0.46104 d. 0.41259 e. non of the above 2. headloss in Pipe # 2 a. 7.882 b. 8.660 c. 7.178 d. 7.243 e. none of the above 3. elevation of reservoir B a. 98.134 b. 81. 431 c. 84.370 d. 87.875 e. none of the above
Solid Waste Engineering
3rd Edition
ISBN:9781305635203
Author:Worrell, William A.
Publisher:Worrell, William A.
Chapter5: Separation Processes
Section: Chapter Questions
Problem 5.27P
Related questions
Question
reservoir b in the figure receives 0.09 m^3/s of flow.
Properties of each pipe:
Pipe # 1: Length = 1800m, Diameter = 450 mm, f = 0.0204
Pipe # 2: Length = 650m, Diameter = 250 mm, f = 0.0177
Pipe # 3: Length = 700m, Diameter = 400 mm, f = 0.0226
Elevation A = 150 m.
Elevation C = 60 m.
Determine the following:
1. Flow in Pipe # 3
a. 0.50273
b. 0.51946
c. 0.46104
d. 0.41259
e. non of the above
2. headloss in Pipe # 2
a. 7.882
b. 8.660
c. 7.178
d. 7.243
e. none of the above
3. elevation of reservoir B
a. 98.134
b. 81. 431
c. 84.370
d. 87.875
e. none of the above
Expert Solution
This question has been solved!
Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.
Step by step
Solved in 4 steps with 4 images
Recommended textbooks for you
Solid Waste Engineering
Civil Engineering
ISBN:
9781305635203
Author:
Worrell, William A.
Publisher:
Cengage Learning,
Solid Waste Engineering
Civil Engineering
ISBN:
9781305635203
Author:
Worrell, William A.
Publisher:
Cengage Learning,