kg 9 Air (M= 28.97 kmol) is used for a Stirling cycle engine. Determine the unknown states in the table below, then calculate the heat transfer and work for each of the processes. W = RT In In ~(~7) m Determine the net work per kg for the cycle. kJ The Universal Gas Constant is 8.314 kmol K State 1 Pressure 100 kPa Temperature 300 K ific Volume K 200 300 400 500 600 700 800 900 1000 State 3 600 K State 2 3 m m 0.861 0.5 kg kg Process 1-2 Process 2-3 Process 3-4 kJ/kg 326.20 426.53 527.37 629.45 733.43 839.70 948.37 1059.36 1172.46 Process 4-1 Cu kJ/kgK 0.7154 0.7177 0.7263 0.7423 0.7638 0.7877 0.8115 0.8337 0.8539 State 4 Net Cp kJ/kgK 1.0024 1.0048 1.0133 1.0294 1.0509 1.0747 1.0985 1.1208 1.1409 7 1.40 1.39 1.39 1.35 1.3 1.3 1.3 1.3 1.3

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kg kmol is used for a Stirling cycle engine. Air (M= 28.97- Determine the unknown states in the table below, then calculate the heat transfer and work for each of the processes. W RT In In (+) m Determine the net work per kg for the cycle. kJ The Universal Gas Constant is 8.314 kmol K State 1 Pressure 100 kPa Temperature 300 K Specific Volume kg m kg State 2 3 0.861 0.5 kg Process 1-2 Process 2-3 m 3 m kg Process 3-4 Temp. K 200 300 400 500 600 700 800 900 1000 State 3 600 K h kJ/kg 326.20 426.53 527.37 629.45 733.43 839.70 948.37 1059.36 1172.46 Process 4-1 Co kJ/kgK Cp kJ/kgK 0.7154 1.0024 0.7177 1.0048 0.7263 1.0133 0.7423 1.0294 0.7638 1.0509 0.7877 1.0747 0.8115 1.0985 0.8337 1.1208 0.8539 1.1409 State 4 Net 7 1.4013 1.3999 1.3952 1.3867 1.3758 1.3644 1.3537 1.3443 1.3362