Abstract

SYNOPSIS The power output of a simple, finite-time solar radiant heat engine is studied. The model adopted is a reversible Carnot cycle coupled to a heat source and a heat sink by radiant heat transfer. Both the heat source and the heat sink have Infinite heat capacity rate. A mathematical expression is derived for the power output of the irreversible solar radiant heat engine. The maximum power output is found. The maximum bound provides the basis for designing a real solar heat engine and for a performance comparison with existing solar power plants.

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