4. A thermodynamics steady flow system receives 2.34 kg/min of a fluid where the pressure is 137.9 Kpa, specific volume of 0.0388 m/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 m/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.

4. A thermodynamics steady flow system receives 2.34 kg/min of a fluid where the pressure is 137.9 Kpa, specific volume of 0.0388 m/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 m/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.

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

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Concept explainers

Basic Thermodynamic Processes

The word 'thermodynamics' can be divided into two words, 'thermo' and 'dynamics'. The word thermo deals with the heat and thermal phenomenon, whereas dynamics deals with forces or external agent that drives the heat flow or aids in the motion of heat.

Question

4. A thermodynamics steady flow system receives 2.34 kg/min of a fluid where the
pressure is 137.9 Kpa, specific volume of 0.0388 m/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 m/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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