1) Water is stored in a large storage tank at 30.0°C open to atmosphere (Tank 1). It is pumped at a rate of 50 m/h to another pressurized tank (Tank 2) at 21.0°C and 32 m above, as shown below. The...


1) Water is stored in a large storage tank at 30.0°C open to atmosphere (Tank 1). It is pumped at a rate of 50<br>m/h to another pressurized tank (Tank 2) at 21.0°C and 32 m above, as shown below. The pipeline used is<br>5 cm in diameter commercial steel with a total length of 80 m. The water passes through a heat exchanger<br>where 50 kW of heat is removed from the water. The flow system consists of two 90° elbow and 1 wide<br>open gate valve. Calculate the power that should be supplied by the pump in kW (Water properties at 21.0°C<br>can be used to calculate the Reynolds number in the flow system).<br>Pgage = 30 psig<br>wide open<br>gate valve<br>heat<br>exchanger<br>32 m<br>Patm<br>Tank 2<br>Tank 1<br>

Extracted text: 1) Water is stored in a large storage tank at 30.0°C open to atmosphere (Tank 1). It is pumped at a rate of 50 m/h to another pressurized tank (Tank 2) at 21.0°C and 32 m above, as shown below. The pipeline used is 5 cm in diameter commercial steel with a total length of 80 m. The water passes through a heat exchanger where 50 kW of heat is removed from the water. The flow system consists of two 90° elbow and 1 wide open gate valve. Calculate the power that should be supplied by the pump in kW (Water properties at 21.0°C can be used to calculate the Reynolds number in the flow system). Pgage = 30 psig wide open gate valve heat exchanger 32 m Patm Tank 2 Tank 1

Jun 11, 2022
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