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The finite-time thermodynamic performance of a generalized Carnot-cycle, under the condition of mixed heat-resistances, is studied. The optimal configuration and the fundamental optimal relation between power and efficiency of the cycle are derived. The results provide some guidance for the design of practical engines.
The finite-time thermodynamic performance of a generalized Carnot cycle, in which the heat transfer between the working fluid and the heat reservoirs obeys a generalized law Q≃(ΔT) m , is studied. The optimal configuration and the fundamental optimal relation between power output and efficiency of the cycle are derived. Some special examples are discussed. The results can provide some theoretical...
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