Reversed Carnot Cycle Ts Diagram. L h hp carnot h l f carnot t t cop t t cop 1 1 1 1. This time the cycle remains exactly the same except that the directions of any heat and work interactions are reversed.
That is all the processes that compose it can be reversed in which case it becomes the carnot refrigeration cycle. We see from the model heat q l is absorbed from the low temperature reservoir t l constant and heat q h is rejected to a high temperature reservoir t h constant. Consider 1 kg of saturated water at pressure p1 and absolute temperature t1 as represented by point 1 in the figure.
Reversed carnot cycle is the same as that of conventional carnot cycle except for the direction of the processes.
This time the cycle remains exactly the same except that the directions of any heat and work interactions are reversed. Carnot vapour cycle p v diagram. Fig 1 and fig 2 shows the p v and t s diagram of a refrigeration system working on reversed carnot cycle. We see from the model heat q l is absorbed from the low temperature reservoir t l constant and heat q h is rejected to a high temperature reservoir t h constant.
