The pump shown in the figure draws water from Reservoir A and discharges the fluid into a nozzle at D. The length of the pipe from the reservoir to the pump is 150m and the length of the pipe from the pump to the nozzle is 1500m. The pipe diameter prior to the pump is 450mm whereas that after the pump is 600mm. If the gage pressure at pt. A is taken at 95 kPa and the gage pressure at pt. B is 3.5 kPa (f = 0.02 for all pipes), then: %3D B 4 m

Structural Analysis
6th Edition
ISBN:9781337630931
Author:KASSIMALI, Aslam.
Publisher:KASSIMALI, Aslam.
Chapter2: Loads On Structures
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The pump shown in the figure draws water
from Reservoir A and discharges the fluid
into a nozzle at D. The length of the pipe
from the reservoir to the pump is 150m and
the length of the pipe from the pump to the
nozzle is 1500m. The pipe diameter prior to
the pump is 450mm whereas that after the
pump is 600mm.
If the gage pressure at pt. A is taken at 95
kPa and the gage pressure at pt. B is 3.5 kPa
(f = 0.02 for all pipes), then:
%3D
4 m
Determine the theoretical discharge at
which the water may be pumped from the
reservoir.
Transcribed Image Text:The pump shown in the figure draws water from Reservoir A and discharges the fluid into a nozzle at D. The length of the pipe from the reservoir to the pump is 150m and the length of the pipe from the pump to the nozzle is 1500m. The pipe diameter prior to the pump is 450mm whereas that after the pump is 600mm. If the gage pressure at pt. A is taken at 95 kPa and the gage pressure at pt. B is 3.5 kPa (f = 0.02 for all pipes), then: %3D 4 m Determine the theoretical discharge at which the water may be pumped from the reservoir.
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