Title: Exergy of solar radiation

Authors: Stephan Kabelac

Addresses: University of the Federal Armed Forces, Hamburg Institute of Thermodynamics, D-22039, Hamburg, Germany

Abstract: Solar radiation reaching the ground is accompanied with radiation entropy. When the entropy production rate within any solar energy conversion device is to be calculated, the incoming radiation entropy flux has to be known. In this contribution, first it is shown how the radiation entropy flux arriving on earth is to be calculated. Secondly, the interaction between the incoming radiation and the receiver surface is identified as one entropy production source. An approach for a reversible radiation conversion device is proposed. Maximum conversion efficiencies for non-concentrating solar energy converters are found to be between 50–77% of the incoming radiation energy, depending on atmospheric conditions.

Keywords: solar energy; solar exergy; energy conversion; radiation entropy; solar radiation.

DOI: 10.1504/IJETP.2005.006743

International Journal of Energy Technology and Policy, 2005 Vol.3 No.1/2, pp.115 - 122

Published online: 05 Apr 2005 *

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