Situation 3: Three reservoirs A, B and C are connected respectively with pipes 1, 2 and 3 joining at a common junction P. Reservoir A is at elevation 80m, reservoir B at 70m and C is at 60m. Assume f=0.018 for all pipes. Pipe 1: L-5000 m, D- 300 mm Pipe 2: L=4000 m, D = 250 mm Pipe 3: L=3500 m EL 80m A El 70m Q1=0.045 CMS El. 60m Q 12. Determine the flow in pipe 2. 13. Determine the flow in pipe 3. 14. Determine the diameter of pipe 3.
Situation 3: Three reservoirs A, B and C are connected respectively with pipes 1, 2 and 3 joining at a common junction P. Reservoir A is at elevation 80m, reservoir B at 70m and C is at 60m. Assume f=0.018 for all pipes. Pipe 1: L-5000 m, D- 300 mm Pipe 2: L=4000 m, D = 250 mm Pipe 3: L=3500 m EL 80m A El 70m Q1=0.045 CMS El. 60m Q 12. Determine the flow in pipe 2. 13. Determine the flow in pipe 3. 14. Determine the diameter of pipe 3.
Sustainable Energy
2nd Edition
ISBN:9781337551663
Author:DUNLAP, Richard A.
Publisher:DUNLAP, Richard A.
Chapter14: Ocean Thermal Energy Conversion And Ocean Salinity Gradient Energy
Section: Chapter Questions
Problem 14P
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Transcribed Image Text:Situation 3: Three reservoirs A, B and C are connected respectively with pipes 1, 2 and 3
joining at a common junction P. Reservoir A is at elevation 80m, reservoir B at 70m and C
is at 60m. Assume f=0.018 for all pipes.
Pipe 1: L-5000 m, D = 300 mm
Pipe 2: L= 4000 m, D = 250 mm
Pipe 3: L=3500 m
EL 80m
A
EL 70m
Qı=0.045 CMS
Q2
El. 60m
12.
Determine the flow in pipe 2.
13.
Determine the flow in pipe 3.
14.
Determine the diameter of pipe 3.
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