A 25 hp suction pump operating at 70.00% efficiency draws water from a suction line whose diameter is 184 mm and discharges into the air through a line whose diameter is 134 mm. The velocity in the 134 mm line is 1.9 m/s. If the pressure at point A in the suction pipe is -28 kPa (negative sign indicates the pressure is below the atmosphere), where A is 1.8 m below B on the 134 mm line, determine the maximum elevation above B to which water can be raised assuming a head loss of 2.4 m due to friction. Show step by step explanation.
A 25 hp suction pump operating at 70.00% efficiency draws water from a suction line whose diameter is 184 mm and discharges into the air through a line whose diameter is 134 mm. The velocity in the 134 mm line is 1.9 m/s. If the pressure at point A in the suction pipe is -28 kPa (negative sign indicates the pressure is below the atmosphere), where A is 1.8 m below B on the 134 mm line, determine the maximum elevation above B to which water can be raised assuming a head loss of 2.4 m due to friction. Show step by step explanation.
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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A 25 hp suction pump operating at 70.00% efficiency draws water from a suction line whose diameter is 184 mm and discharges into the air through a line whose diameter is 134 mm. The velocity in the 134 mm line is 1.9 m/s. If the pressure at point A in the suction pipe is -28 kPa (negative sign indicates the pressure is below the atmosphere), where A is 1.8 m below B on the 134 mm line, determine the maximum elevation above B to which water can be raised assuming a head loss of 2.4 m due to friction.
Show step by step explanation.
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