2.8 bar and 40 C ideal R-134a at start in a Piston-Cylinder system fluid transport and initial volume 0.1 m3 'Type. Piston first By keeping it constant, heat is transferred to the system and this...


thermodynamics


2.8 bar and 40 C ideal R-134a at start in a Piston-Cylinder system<br>fluid transport and initial volume 0.1 m3<br>'Type. Piston first<br>By keeping it constant, heat is transferred to the system and this process is 3.2 bar.<br>It is continued until it happens. The volume is then<br>The process is maintained by allowing it to change. At the end of this process<br>temperature reaches 50 C. Assuming the state changes as if they are balanced,<br>Calculate the following.<br>a) R-134a fluid mass in the system,<br>b) Heat transferred to maintain constant volume,<br>c) Calculate the heat transferred by applying constant pressure.<br>d) Show the state changes on the P-v diagram.<br>

Extracted text: 2.8 bar and 40 C ideal R-134a at start in a Piston-Cylinder system fluid transport and initial volume 0.1 m3 'Type. Piston first By keeping it constant, heat is transferred to the system and this process is 3.2 bar. It is continued until it happens. The volume is then The process is maintained by allowing it to change. At the end of this process temperature reaches 50 C. Assuming the state changes as if they are balanced, Calculate the following. a) R-134a fluid mass in the system, b) Heat transferred to maintain constant volume, c) Calculate the heat transferred by applying constant pressure. d) Show the state changes on the P-v diagram.

Jun 11, 2022
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