is d, where it is d, for the delivery one. The pump receives a mechanical power P from an electric motor. What is the maximum height h, above the water level to which water can be pumped? A loss head H, due to friction is considered. dd P Water reservoir Q = 280 N.s-1 d, = 165 mm da = 135 mm P =98 kW HL =12 m

Elements Of Electromagnetics
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ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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6.3 For the system shown in the figure, the pump produces a weight flow
rate W with an efficiency 7pump of 85%. The suction pipe diameter
is d, where it is d, for the delivery one. The pump receives a
mechanical power P from an electric motor. What is the maximum
height h, above the water level to which water can be pumped? A
loss head H, due to friction is considered.
da
Water
reservoir
Q = 280 N.s-I
d, = 165 mm
da = 135 mm
P =98 kW
HL =12 m
Transcribed Image Text:6.3 For the system shown in the figure, the pump produces a weight flow rate W with an efficiency 7pump of 85%. The suction pipe diameter is d, where it is d, for the delivery one. The pump receives a mechanical power P from an electric motor. What is the maximum height h, above the water level to which water can be pumped? A loss head H, due to friction is considered. da Water reservoir Q = 280 N.s-I d, = 165 mm da = 135 mm P =98 kW HL =12 m
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