The centrifugal pump in the figure pumps the water at 25°C from the tank 1.22 m above its inlet center. The inner diameter of the suction pipe is 101.6 mm, the coefficient of friction is 0.0306 and the length is 3.2 m. The sum of the local loss coefficients of the elements in this pipe is 7.4. If the pump operates at a flow rate of 109 m3/h, ENPY=1.52 m. Does the pump work without cavitation at this flow rate? Show the calculation. For water, p-997 kg/m3 and Pb-3.169 kPa. Patm=101.3 kPa and a2=1.05.
The centrifugal pump in the figure pumps the water at 25°C from the tank 1.22 m above its inlet center. The inner diameter of the suction pipe is 101.6 mm, the coefficient of friction is 0.0306 and the length is 3.2 m. The sum of the local loss coefficients of the elements in this pipe is 7.4. If the pump operates at a flow rate of 109 m3/h, ENPY=1.52 m. Does the pump work without cavitation at this flow rate? Show the calculation. For water, p-997 kg/m3 and Pb-3.169 kPa. Patm=101.3 kPa and a2=1.05.
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:The centrifugal pump in the figure pumps the water
at 25°C from the tank 1.22 m above its inlet center.
The inner diameter of the suction pipe is 101.6 mm,
the coefficient of friction is 0.0306 and the length is
3.2 m. The sum of the local loss coefficients of the
elements in this pipe is 7.4. If the pump operates at a
flow rate of 109 m3/h, ENPY=1.52 m. Does the
pump work without cavitation at this flow rate? Show
the calculation. For water, p-997 kg/m3 and
Pb-3.169 kPa. Patm=101.3 kPa and a2-1.05.
Depo
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Girişteki
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Pompa
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