The elevation difference between the water surfaces of reservoir A and reservoir B is 25 m. Point S represents the mid-length of the 500 m long pipe (i.e. 250 m). If the pipe diameter is 200 mm, velocity-2.2 m/s, roughness is 0.0025 mm and friction factor is 0.02 determine the highest elevation the pipe can reach (with respect to reservoir B) at the summit point (point S) without risking pipe cavitation.
The elevation difference between the water surfaces of reservoir A and reservoir B is 25 m. Point S represents the mid-length of the 500 m long pipe (i.e. 250 m). If the pipe diameter is 200 mm, velocity-2.2 m/s, roughness is 0.0025 mm and friction factor is 0.02 determine the highest elevation the pipe can reach (with respect to reservoir B) at the summit point (point S) without risking pipe cavitation.
Chapter2: Loads On Structures
Section: Chapter Questions
Problem 1P
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The elevation difference between the water surfaces of reservoir A and reservoir B is 25 m. Point S represents the mid-length of the 500 m long pipe (i.e. 250 m). If the pipe diameter is 200 mm, velocity=2.2 m/s, roughness is 0.0025 mm and friction factor is 0.02 determine the highest elevation the pipe can reach (with respect to reservoir B) at the summit point (point S) without risking pipe cavitation.
Transcribed Image Text:A
The elevation difference between the water surfaces of reservoir A
and reservoir B is 25 m. Point S represents the mid-length of the 500 m long pipe
(i.e. 250 m). If the pipe diameter is 200 mm, velocity-2.2 m/s, roughness is 0.0025
mm and friction factor is 0.02 determine the highest elevation the pipe can reach
(with respect to reservoir B) at the summit point (point S) without risking pipe
cavitation.
25 m
Hs = ?
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