Water with a density of 998 kg/m³ is flowing at a steady mass flow rate through a uniform-diameter pipe. The entrance pressure of the fluid is 68.9 kN/m² abs in the pipe, which connects to a pump that...


Water with a density of 998 kg/m³ is flowing at a steady mass flow<br>rate through a uniform-diameter pipe. The entrance pressure of the<br>fluid is 68.9 kN/m² abs in the pipe, which connects to a pump that<br>actually supplies 155.4 J/kg of fluid flowing in the pipe. The exit pipe<br>from the pump is the same diameter as the inlet pipe. The exit section<br>of the pipe is 3.05 m higher than the entrance, and the exit pressure is<br>137.8 kN/m2 abs. The Reynolds number in the pipe is above 4000 in<br>the system. Calculate the frictional loss EF in the pipe system.<br>

Extracted text: Water with a density of 998 kg/m³ is flowing at a steady mass flow rate through a uniform-diameter pipe. The entrance pressure of the fluid is 68.9 kN/m² abs in the pipe, which connects to a pump that actually supplies 155.4 J/kg of fluid flowing in the pipe. The exit pipe from the pump is the same diameter as the inlet pipe. The exit section of the pipe is 3.05 m higher than the entrance, and the exit pressure is 137.8 kN/m2 abs. The Reynolds number in the pipe is above 4000 in the system. Calculate the frictional loss EF in the pipe system.

Jun 10, 2022
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