A centrifugal pump is required to deliver 50 liters of water per second to a height or 30 m through a 100 m long pipe of 15 cm diameter. The inlet losses in the suction pipe are estimated to be 0.35 m. Assuming an overall efficiency of 70 percent and taking Darcy’s friction coefficient of 0.015 for the pipeline, determine the power, in kW, required to drive the pump.
A centrifugal pump is required to deliver 50 liters of water per second to a height or 30 m through a 100 m long pipe of 15 cm diameter. The inlet losses in the suction pipe are estimated to be 0.35 m. Assuming an overall efficiency of 70 percent and taking Darcy’s friction coefficient of 0.015 for the pipeline, determine the power, in kW, required to drive the pump.
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 centrifugal pump is required to deliver 50 liters of water per second to a height or 30 m through a 100 m long pipe of 15 cm diameter. The inlet losses in the suction pipe are estimated to be 0.35 m. Assuming an overall efficiency of 70 percent and taking Darcy’s friction coefficient of 0.015 for the pipeline, determine the power, in kW, required to drive the pump.
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