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27 April, 17:41

Refrigerant 134a is compressed with no heat transfer in a piston-cylinder assembly from 30 lbf/in. 2, 20F to 160 lbf/in. 2 The mass of refrigerant is 0.04 lb. For the refrigerant as the system, W 0.56 Btu. Kinetic and potential energy effects are negligible. Determine the final temperature, in F

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  1. 27 April, 20:53
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    The final temperature is 26.96 F

    Explanation:

    Initial pressure = 30 lbf/in^2 = 30*1.01325/14.696 = 2.1 bar

    Initial temperature = 20 F = (20 - 32) / 1.8 + 273 = 266.33 K

    From steam table, entropy at 2.1 bar = 7.111 kJ/kg. K

    Initial enthalpy = 7.111*266.33 = 1893.9 kJ/kg

    Final pressure = 60 lbf/in^2 = 60*1.01325/14.696 = 4.1 bar

    From steam table, entropy at 4.1 bar = 6.889 kJ/kg. K

    Work = 0.5 Btu = 0.5*1.05506 = 0.5908 kJ

    Change in enthalpy (∆H) = work/mass

    mass of refrigerant = 0.04 lb = 0.04*0.45359 = 0.0181 kg

    ∆H = 0.5908/0.0181 = 32.64 kJ/kg

    H2 = H1 - ∆H = 1893.9 - 32.64 = 1861.26 kJ/kg

    Final temperature = final enthalpy : final entropy = 1861.26 kJ/kg : 6.889 kJ/kg. K = 270.2 K = 1.8 (270.2 - 273) + 32 = - 5.04 + 32 = 26.96 F
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