A thermodynamics steady flow system receives 4.56 kg/min of a fluid where the pressure is 137.9 Kpa specific volume of 0.0388 m3/kg, velocity of 122m/s and internal energy of 1160Kj/Kg. the fluid leaves the system at a boundary where pressure is 551.6Kpa , specific volume of 0.193 m3/kg , velocity of 183 m/s and internal energy of 52.8 Kj/kg. during the passage through the system, the fluid receives 3,000 Joules/s of heat. Determine the steady flow work in. Kj/min and kj/s

A thermodynamics steady flow system receives 4.56 kg/min of a fluid where the pressure is 137.9 Kpa specific volume of 0.0388 m3/kg, velocity of 122m/s and internal energy of 1160Kj/Kg. the fluid leaves the system at a boundary where pressure is 551.6Kpa , specific volume of 0.193 m3/kg , velocity of 183 m/s and internal energy of 52.8 Kj/kg. during the passage through the system, the fluid receives 3,000 Joules/s of heat. Determine the steady flow work in. Kj/min and kj/s

Principles of Heat Transfer (Activate Learning with these NEW titles from Engineering!)

8th Edition

ISBN:9781305387102

Author:Kreith, Frank; Manglik, Raj M.

Publisher:Kreith, Frank; Manglik, Raj M.

Chapter8: Natural Convection

Section: Chapter Questions

Problem 8.49P

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A thermodynamics steady flow system receives 4.56 kg/min of a fluid where the pressure is 137.9 Kpa specific volume of 0.0388 m3/kg, velocity of 122m/s and internal energy of 1,160 Kj/Kg. the fluid leaves the system at a boundary where pressure is 551.6Kpa , specific volume of 0.193 m3/kg , velocity of 183 m/s and internal energy of 52.8 Kj/kg. during the passage through the system, the fluid receives 3,000 Joules/s of heat. Determine the steady flow work in. Kj/min and kj/s
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