SL-3 A refrigerator with K-4 and a reversible heat engine operate between two heat reservoirs at 300K and 400K. During each cycle of operation the engine produces 500J of work, which is the entire work input to the refrigerator for each cycle. a) Write down or calculate the magnitudes of the Wk, Qh, and Qe for one cycle of operation of the engine. b) Write down or calculate the magnitudes of the Wk, Qh, and Qe for one cycle of operation of the refrigerator. c) Calculate the magnitudes of the Wkect, Qhnet, and Qenei for one cycle of operation of the system. liu the onr ahove for problem SL-1 the energy flow for the engine and refrigerator tem on the right

SL-3 A refrigerator with K-4 and a reversible heat engine operate between two heat reservoirs at 300K and 400K. During each cycle of operation the engine produces 500J of work, which is the entire work input to the refrigerator for each cycle. a) Write down or calculate the magnitudes of the Wk, Qh, and Qe for one cycle of operation of the engine. b) Write down or calculate the magnitudes of the Wk, Qh, and Qe for one cycle of operation of the refrigerator. c) Calculate the magnitudes of the Wkect, Qhnet, and Qenei for one cycle of operation of the system. liu the onr ahove for problem SL-1 the energy flow for the engine and refrigerator tem on the right

Refrigeration and Air Conditioning Technology (MindTap Course List)

8th Edition

ISBN:9781305578296

Author:John Tomczyk, Eugene Silberstein, Bill Whitman, Bill Johnson

Publisher:John Tomczyk, Eugene Silberstein, Bill Whitman, Bill Johnson

Chapter44: Geothermal Heat Pumps

Section: Chapter Questions

Problem 13RQ: If 14 gpm of water is flowing through an open-loop heat pump with a temperature difference of 7F,...

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SL-4 A reversible refrigerator is driven by a (non-reversible) heat engine with e-0.250. Both operate between two heat reservoirs at 300K and 450K. The power output of the engine is 5,000W, which is the entire power input to the refrigerator. a) Write down or calculate the magnitudes of the Wk, Qhe and Q. for one second of operation of the b) Write down or calculate the magnitudes of the Wk, Qn, and Q. for one second of operation of the refrigerator. c) Calculate the magnitudes of the Wkest, Qhnet, and Qenet for one second of operation of the system. d) Show on a diagram like the one above for problem SL-1 the energy flow for the engine and refrigerator individually on the left and the net energy flow for the engine-refrigerator system on the right. e) Does this net result violate the second law of thermodynamics? EXPLAIN your answes. 2.
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