Maurice Tutor

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Category > Engineering Posted 14 May 2018 My Price 6.00

hydraulic copper tubing

For the system shown in Fig. 7.35 and analyzed in Problem 7.33, assume that the energy loss is proportional to the velocity head in the tubing. Compute the pressure in the tank required to cause a flow of 1000 L/min.

Problem 7.33

In Fig. 7.35, kerosene at 25°C is flowing at 500 L/min from the lower tank to the upper tank through hydraulic copper tubing (50 mm OD x 1.5 mm wall) and a valve. If the pressure above the fluid is 100 kPa gage, how much energy loss occurs in the system?


General Data for Problems 7 .35-7 .40

 

Answers

Maurice Tutor
(5)
Status NEW Posted 14 May 2018 01:05 PM My Price 6.00

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