Efficiency of heat pump and refrigerator

AI Thread Summary
The discussion centers on the efficiency formulas for heat pumps and refrigerators, which suggest that their efficiencies can exceed 1. This phenomenon is explained by the Coefficient of Performance (COP), which differs from traditional heat engine efficiency. In heat pumps and refrigeration cycles, the working fluid circulates to transfer heat rather than convert thermal energy into mechanical energy. The energy required to circulate the fluid does not directly correlate with the energy it carries, leading to potentially high efficiency values. Understanding these concepts clarifies the operational principles of heat pumps and refrigerators.
anizet
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I know the formulas for efficiencies e of heat pump (it is e<=Tmax/(Tmax-Tmin)) and refrigerator (e<=Tmin/(Tmax-Tmin)), where Tmax and Tmin are temperatures of warmer and colder (respectively) involved containers. These formulas make me puzzled, as efficiencies seem to be possibly bigger than 1. Is that correct? If yes, what does it mean?
 
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anizet said:
I know the formulas for efficiencies e of heat pump (it is e<=Tmax/(Tmax-Tmin)) and refrigerator (e<=Tmin/(Tmax-Tmin)), where Tmax and Tmin are temperatures of warmer and colder (respectively) involved containers. These formulas make me puzzled, as efficiencies seem to be possibly bigger than 1. Is that correct? If yes, what does it mean?

The http://en.wikipedia.org/wiki/Coefficient_of_performance" of a heat engine with COP. They are not the same thing.

CS
 
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In a typical heat engine, you have a certain amount of thermal energy that is converted to mechanical energy. In a heat pump or refrigeration cycle, the working fluid is being circulated to move heat between a hot and cold well. There is no direct corellation between the energy required to circulate the working fluid and the energy it is carrying with it when you move it.
 

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