To determine The heat transfer from the refrigerant-134a per unit mass. Explanation Given: Initial pressure of refrigerant-134a ( P 1 ) is 900 kPa . Initial temperature of refrigerant-134a ( T 1 ) is 60 ° C . Final pressure of refrigerant-134a ( P 2 ) is 900 kPa . Calculation: Refer Table A-12, “Superheated refrigerant”, obtain the initial enthalpy of refrigerant-134a at the pressure of 900 kPa and temperature of 60 ° C . h 1 = 295.15 kJ / kg Refer Table A-13, “Saturated refrigerant-134a-Pressure table”, obtain the final enthalpy of refrigerant-134a at the pressure of 900 kPa . h 2 = 101.62 kJ / kg Calculate the heat transfer from the refrigerant-134a per unit mass ( q out ) using the steady-flow energy balance equation. E ˙ in − E ˙ out = Δ E ˙ system E ˙ in − E ˙ out = 0

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Work and Heat Transfer

It is generally related to thermal engineering which tells about the use, creation, conversion and transfer of heat energy between the systems. It is also considered that to transfer heat from one source to another, transfer of masses is also required. T…

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Chapter 6, Problem 96P

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The heat transfer from the refrigerant-134a per unit mass.

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Chapter 6, Problem 95P

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Fundamentals of Thermal-Fluid Sciences

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