Unified Approach to Power-Efficiency Trade-Off of Generic Thermal Machines

Due to the diverse functionalities of different thermal machines, their optimization relies on a case-by-case basis, lacking unified results. In this work, we propose a general approach to determine power-efficiency trade-off relation (PETOR) for any thermal machine. For cases where cycle (of duration $\tau$) irreversibility satisfies the typical $1/\tau$-scaling, we provide a unified PETOR which is applicable to heat engines, refrigerators, heat exchangers and heat pumps. It is shown that, some typical PETORs, such as those for low-dissipation Carnot cycles (including heat engine and refrigerator cycles) and the steady-state heat engines operating between finite-sized reservoirs are naturally recovered.