A fluid enters an apparatus at 480 ft/s, initially the pressure of the fluid is 120 psia, the specific volume of 5ft³/lb and the internal energy is 383 BTU/lb. The fluid leaves the apparatus at 25psia, specific volume of 18 ft³/lb, an exit velocity of 1200 ft/s and internal energy of 120 BTU/lb. The heat radiation loss is 10 BTU/lb. Determine work steady flow, WsF
A fluid enters an apparatus at 480 ft/s, initially the pressure of the fluid is 120 psia, the specific volume of 5ft³/lb and the internal energy is 383 BTU/lb. The fluid leaves the apparatus at 25psia, specific volume of 18 ft³/lb, an exit velocity of 1200 ft/s and internal energy of 120 BTU/lb. The heat radiation loss is 10 BTU/lb. Determine work steady flow, WsF
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![A fluid enters an apparatus at 480 ft/s, initially the pressure
of the fluid is 120 psia, the specific volume of 5ft3/lb and
the internal energy is 383 BTU/lb. The fluid leaves the
apparatus at 25psia, specific volume of 18 ft³/lb, an exit
velocity of 1200 ft/s and internal energy of 120 BTU/lb. The
heat radiation loss is 10 BTU/lb. Determine work steady
flow, WSF](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F4c880878-b0ad-4e4a-a810-9d7d8d377d9c%2F618ec521-6c52-4044-8f24-c8dffd926228%2F17vd387_processed.png&w=3840&q=75)
Transcribed Image Text:A fluid enters an apparatus at 480 ft/s, initially the pressure
of the fluid is 120 psia, the specific volume of 5ft3/lb and
the internal energy is 383 BTU/lb. The fluid leaves the
apparatus at 25psia, specific volume of 18 ft³/lb, an exit
velocity of 1200 ft/s and internal energy of 120 BTU/lb. The
heat radiation loss is 10 BTU/lb. Determine work steady
flow, WSF
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