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Mechanical Engineering Thermodynamics - Lec 9, pt 5 of 5: Example - Entropy Generation Air Comp - YouTube
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thermodynamics - What is the reason for a reduction in entropy in a compressor - Engineering Stack Exchange
![Applied thermodynamics for engineers. Fig. 92. Art. 242.-Valves. SUCTJON □ Compressor Cylinder with Rocking Inlet(Clayton Air Compressor Works.). Fig. 93. Art. 242. — Compressor Cylinder with Corliss Valves. (Allis-Chalmers Co.) COMPRESSED Applied thermodynamics for engineers. Fig. 92. Art. 242.-Valves. SUCTJON □ Compressor Cylinder with Rocking Inlet(Clayton Air Compressor Works.). Fig. 93. Art. 242. — Compressor Cylinder with Corliss Valves. (Allis-Chalmers Co.) COMPRESSED](https://c8.alamy.com/comp/2CEM6E2/applied-thermodynamics-for-engineers-fig-92-art-242-valves-suctjon-compressor-cylinder-with-rocking-inletclayton-air-compressor-works-fig-93-art-242-compressor-cylinder-with-corliss-valves-allis-chalmers-co-compressed-air-transmission-139-a-gear-sometimes-used-consists-of-corliss-inlet-valves-and-mechanically-operateddischarge-valves-which-latter-though-expensive-are-free-from-the-disadvantagessometimes-experienced-with-poppet-valves-the-closing-only-of-these-valves-ismechanically-controlled-their-opening-is-automatic-a-common-rule-for-proportioning-valves-and-pas-2CEM6E2.jpg)
Applied thermodynamics for engineers. Fig. 92. Art. 242.-Valves. SUCTJON □ Compressor Cylinder with Rocking Inlet(Clayton Air Compressor Works.). Fig. 93. Art. 242. — Compressor Cylinder with Corliss Valves. (Allis-Chalmers Co.) COMPRESSED
![A flow of R134a enters a well-insulated compressor at a pressure p_1 = 5 bar and a temperature T_1 = 20^oC. The R134a exits the compressor at pressure p_2 = 16 bar A flow of R134a enters a well-insulated compressor at a pressure p_1 = 5 bar and a temperature T_1 = 20^oC. The R134a exits the compressor at pressure p_2 = 16 bar](https://homework.study.com/cimages/multimages/16/05.24.98360299170032861970.jpg)