An actual reversed carnot cycle has a COP of 4.7; while for an ideal one operating between temperature limits of 40°C and -12°C, the COP is higher. Assuming the actual cycle operates on the same temperature limits as that of the ideal cycle, determine (a) COP of the ideal reversed carnot cycle, (b) the ratio of the refrigerating capacity of the actual cycle to that of the ideal cycle.
An actual reversed carnot cycle has a COP of 4.7; while for an ideal one operating between temperature limits of 40°C and -12°C, the COP is higher. Assuming the actual cycle operates on the same temperature limits as that of the ideal cycle, determine (a) COP of the ideal reversed carnot cycle, (b) the ratio of the refrigerating capacity of the actual cycle to that of the ideal cycle.
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
Problem 1.1MA
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An actual reversed carnot cycle has a COP of 4.7; while for an ideal one operating between
temperature limits of 40°C and -12°C, the COP is higher. Assuming the actual cycle operates on
the same temperature limits as that of the ideal cycle, determine (a) COP of the ideal reversed
carnot cycle, (b) the ratio of the refrigerating capacity of the actual cycle to that of the ideal
cycle.
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