Q2/ A pump delivers water from a tank A (water surface elevation = 110 m) to tank B (water surface elevation = 170 m) as shown in figure below. The suction pipe is 45 m long (f = 0.024) and 35 cm in diameter. The delivery pipe is 950 m long (f = 0.022) and 25 cm in diameter. The head discharge relationship for the pump is given by H, = (90 – 8000 Q*), where H, in m and Q in m’/s. Calculate the discharge in the pipeline and the power delivered by the pump.

Q2/ A pump delivers water from a tank A (water surface elevation = 110 m) to tank B (water surface elevation = 170 m) as shown in figure below. The suction pipe is 45 m long (f = 0.024) and 35 cm in diameter. The delivery pipe is 950 m long (f = 0.022) and 25 cm in diameter. The head discharge relationship for the pump is given by H, = (90 – 8000 Q*), where H, in m and Q in m’/s. Calculate the discharge in the pipeline and the power delivered by the pump.

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

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Question

Q2/ A pump delivers water from a tank A (water surface elevation = 110 m) to
tank B (water surface elevation = 170 m) as shown in figure below. The suction
pipe is 45 m long ( = 0.024) and 35 cm in diameter. The delivery pipe is 950 m
long (f = 0.022) and 25 cm in diameter. The head discharge relationship for the
pump is given by H, = (90 – 8000 Q*), where H, in m and Q in m³/s. Calculate the
discharge in the pipeline and the power delivered by the pump.
Delivery pipe.
elevation 170 m
Suction pipe,
elevation- 110 m
Good Luck
Rasha H. Salman

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