Experimental implementation of finite-time Carnot cycle

Abstract

The Carnot cycle is a prototype of ideal heat engine to draw mechanical energy from the heat flux between two thermal baths with the maximum efficiency, dubbed as the Carnot efficiency ηC. Such efficiency can only be reached by thermodynamical equilibrium processes with infinite time, accompanied unavoidably with vanishing power - energy output per unit time. In real-world applications, the quest to acquire high power leads to an open question whether a fundamental maximum efficiency exists for finite-time heat engines with given power. We experimentally implement a finite-time Carnot cycle with sealed dry air as working substance and verify the existence of a tradeoff relation between power and efficiency. Efficiency up to (0.5240.034)ηC is reached for the engine to generate the maximum power, consistent with the theoretical prediction ηC/2. Our results shall provide a new platform for studying finite-time thermodynamics consisting of nonequilibrium processes.