A pump takes water at 60 F from a large reservoir and delivers it to the bottom of an open elevated tank 25 ft above the reservoir surface through a 3-in ID pipe. The inlet tothe pump is located 10 ft below the water surface, and the water level in the tank is constant at 160 ft above the reservoir surface. The pump delivers 150 gal/min. If the total loss of energy due to friction in the piping system is 35 ft-lb, per 1bm of fluid, calculate the horsepower required to do the pumping. The pump-motor set has an efficiency of 55%.
A pump takes water at 60 F from a large reservoir and delivers it to the bottom of an open elevated tank 25 ft above the reservoir surface through a 3-in ID pipe. The inlet tothe pump is located 10 ft below the water surface, and the water level in the tank is constant at 160 ft above the reservoir surface. The pump delivers 150 gal/min. If the total loss of energy due to friction in the piping system is 35 ft-lb, per 1bm of fluid, calculate the horsepower required to do the pumping. The pump-motor set has an efficiency of 55%.
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
Problem 1.1MA
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Question
A pump takes water at 60 F from a large
reservoir and delivers it to the bottom of an
open elevated tank 25 ft above the reservoir
surface through a 3-in ID pipe. The inlet tothe pump is located 10 ft below the water
surface, and the water level in the tank is
constant at 160 ft above the reservoir surface.
The pump delivers 150 gal/min. If the total loss of energy due to friction in the piping
system is 35 ft-lb, per 1bm of fluid, calculate
the horsepower required to do the pumping.
The pump-motor set has an efficiency of 55%.
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