The oil is pumped from a reservoir tank to the automobile tank. The volume flow rate of oil is 3,2 cm/s. The pipe diameter is 5 mm. The oil discharges through a 0.8-mm nozzle in a tank. The pressure in the tank is 95 kPa. The total head loss in the system is 1.1 m. If the pump has an efficiency of 58,18%, determine the power [W] needed by the pump. (NOTE: Pol = 673 kg/m)

Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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The oil is pumped from a reservoir tank to the automobile tank. The volume flow rate of oil is 3,2 cm/s. The pipe diameter is 5 mm. The oil
discharges through a 0.8-mm nozzle in a tank. The pressure in the tank is 95 kPa. The total head loss in the system is 1.1 m. If the pump has
an efficiency of 58,18%, determine the power [W] needed by the pump. (NOTE: Pol = 673 kg/m)
%3!
0.5 m
95 kPa
100 kPa
Pump
Transcribed Image Text:The oil is pumped from a reservoir tank to the automobile tank. The volume flow rate of oil is 3,2 cm/s. The pipe diameter is 5 mm. The oil discharges through a 0.8-mm nozzle in a tank. The pressure in the tank is 95 kPa. The total head loss in the system is 1.1 m. If the pump has an efficiency of 58,18%, determine the power [W] needed by the pump. (NOTE: Pol = 673 kg/m) %3! 0.5 m 95 kPa 100 kPa Pump
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