Q1/Water at 20'C is being pumped from a storage tank to an elevated second tank at a rate of 0.5 m'/sec. The elevation of the surface of the storage tank is 110 m and the elevation of the second tank is 150 m from sea level. the water discharge pipe is located at a depth of 10 m from the surface of the storage tank The frictional losses in the water line to the plant are given by the relation (0.098 m/s)L, where L is the length of the pipe line. The water line to the supply tank has an inner diameter of 0.05 m and a length of 1200m. How much energy must a pump deliver to the water?
Q1/Water at 20'C is being pumped from a storage tank to an elevated second tank at a rate of 0.5 m'/sec. The elevation of the surface of the storage tank is 110 m and the elevation of the second tank is 150 m from sea level. the water discharge pipe is located at a depth of 10 m from the surface of the storage tank The frictional losses in the water line to the plant are given by the relation (0.098 m/s)L, where L is the length of the pipe line. The water line to the supply tank has an inner diameter of 0.05 m and a length of 1200m. How much energy must a pump deliver to the water?
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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Transcribed Image Text:Q1/Water at 20°C is being pumped from a storage tank to an
elevated second tank at a rate of 0.5 m/sec. The elevation of
the surface of the storage tank is 110 m and the elevation of
the second tank is 150 m from sea level. the water discharge
pipe is located at a depth of 10 m from the surface of the
storage tank The frictional losses in the water line to the plant
are given by the relation (0.098 m/s³)L, where L is the length of
the pipe line. The water line to the supply tank has an inner
diameter of 0.05 m and a length of 1200m. How much energy
must a pump deliver to the water?
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