The design of a city water supply system is shown in the figure. Reservoir A needs to supply 0.0938 m3/s to lower reservoirs B and c. Pipe 1 is 300 mm diameter and 900 m long, pipe 2 is 200 mm diameter and 387 m long, and pipe 3 is 200 mm diameter and 700 m long. The roughness coefficient for all pipes is 0.011. 1. What most nearly gives the flow rate in pipe 2? 2. Which of the following most nearly gives the elevation of the water surface in reservoir A to supply the needed flow rate? 3. What most nearly gives the flow in pipe 3? A El. 150 m 1 3 El. 140 m B.
The design of a city water supply system is shown in the figure. Reservoir A needs to supply 0.0938 m3/s to lower reservoirs B and c. Pipe 1 is 300 mm diameter and 900 m long, pipe 2 is 200 mm diameter and 387 m long, and pipe 3 is 200 mm diameter and 700 m long. The roughness coefficient for all pipes is 0.011. 1. What most nearly gives the flow rate in pipe 2? 2. Which of the following most nearly gives the elevation of the water surface in reservoir A to supply the needed flow rate? 3. What most nearly gives the flow in pipe 3? A El. 150 m 1 3 El. 140 m B.
Chapter2: Loads On Structures
Section: Chapter Questions
Problem 1P
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Transcribed Image Text:Problem No.2
The design of a city water supply system is shown in the figure. Reservoir A needs to supply 0.0938 m3/s to lower reservoirs B and C. Pipe 1 is 300 mm diameter and 900 m
long, pipe 2 is 200 mm diameter and 387 m long, and pipe 3 is 200 mm diameter and 700 m long. The roughness coefficient for all pipes is 0.011.
1. What most nearly gives the flow rate in pipe 2?
2. Which of the following most nearly gives the elevation of the water surface in reservoir A to supply the needed flow rate?
3. What most nearly gives the flow in pipe 3?
A
El. 150 m
в
1
3
El. 140 m
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