The piping shown in the figure is a parallel-pipe system carrying water at normal temperature. Pressure head at junction X is 76 m, while that at Y is 48 m. If the inflow at junction X is 0.35 cum/s, determine the flow of water at each branch of the loop. Assume C = 120 for all pipes. determine: a. flow in pipe A: ____________m3/s 1 b. flow in pipe B: ____________ m3/s c. flow in pipe C: _____________ m3/s
The piping shown in the figure is a parallel-pipe system carrying water at normal temperature. Pressure head at junction X is 76 m, while that at Y is 48 m. If the inflow at junction X is 0.35 cum/s, determine the flow of water at each branch of the loop. Assume C = 120 for all pipes. determine: a. flow in pipe A: ____________m3/s 1 b. flow in pipe B: ____________ m3/s c. flow in pipe C: _____________ m3/s
Refrigeration and Air Conditioning Technology (MindTap Course List)
8th Edition
ISBN:9781305578296
Author:John Tomczyk, Eugene Silberstein, Bill Whitman, Bill Johnson
Publisher:John Tomczyk, Eugene Silberstein, Bill Whitman, Bill Johnson
Chapter7: Tubing And Piping
Section: Chapter Questions
Problem 2RQ: The size of 1/2 in. would refer to the ______regard to copper tubing used in plumbing and heating....
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6. The piping shown in the figure is a parallel-pipe system carrying water at normal temperature. Pressure head at junction X is 76 m, while that at Y is 48 m. If the inflow at junction X is 0.35 cum/s, determine the flow of water at each branch of the loop. Assume C = 120 for all pipes.
determine:
a. flow in pipe A: ____________m3/s 1
b. flow in pipe B: ____________ m3/s
c. flow in pipe C: _____________ m3/s
Transcribed Image Text:A
diam. 300 mm; L= 4000 m
diam. 350 mm: L= 2500 m
Y
diam. 200 mm; L= 3000 m
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