Entropy production in solar energy conversion

Stephan Kabelac

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Originalsprache	Englisch
Titel des Sammelwerks	Energy and the Environment
Untertitel	Proceedings of the International Conference on Energy and the Environment, December 2003, Shanghai, China
Herausgeber/-innen	K. Chen, T.W. Tong, G. Sarlos
Erscheinungsort	Shanghai
Seiten	167-171
Seitenumfang	5
Publikationsstatus	Veröffentlicht - 2003
Extern publiziert	Ja
Veranstaltung	International Conference on Energy and the Environment - Shanghai, China Dauer: 11 Dez. 2003 → 13 Dez. 2003

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 it is shown first how the radiation entropy flux arriving on earth is to be calculated. Secondly, the interaction between the incoming radiation and the receiver surface is dentified 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.

ASJC Scopus Sachgebiete

Ingenieurwesen (insg.)
Allgemeiner Maschinenbau

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Entropy production in solar energy conversion. / Kabelac, Stephan.
Energy and the Environment: Proceedings of the International Conference on Energy and the Environment, December 2003, Shanghai, China. Hrsg. / K. Chen; T.W. Tong; G. Sarlos. Shanghai, 2003. S. 167-171.

Publikation: Beitrag in Buch/Bericht/Sammelwerk/Konferenzband › Aufsatz in Konferenzband › Forschung › Peer-Review

Kabelac, S 2003, Entropy production in solar energy conversion. in K Chen, TW Tong & G Sarlos (Hrsg.), Energy and the Environment: Proceedings of the International Conference on Energy and the Environment, December 2003, Shanghai, China. Shanghai, S. 167-171, International Conference on Energy and the Environment, Shanghai, China, 11 Dez. 2003.

Kabelac, S. (2003). Entropy production in solar energy conversion. In K. Chen, T. W. Tong, & G. Sarlos (Hrsg.), Energy and the Environment: Proceedings of the International Conference on Energy and the Environment, December 2003, Shanghai, China (S. 167-171).

Kabelac S. Entropy production in solar energy conversion. in Chen K, Tong TW, Sarlos G, Hrsg., Energy and the Environment: Proceedings of the International Conference on Energy and the Environment, December 2003, Shanghai, China. Shanghai. 2003. S. 167-171

Kabelac, Stephan. / Entropy production in solar energy conversion. Energy and the Environment: Proceedings of the International Conference on Energy and the Environment, December 2003, Shanghai, China. Hrsg. / K. Chen ; T.W. Tong ; G. Sarlos. Shanghai, 2003. S. 167-171

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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 it is shown first how the radiation entropy flux arriving on earth is to be calculated. Secondly, the interaction between the incoming radiation and the receiver surface is dentified 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.",

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AB - 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 it is shown first how the radiation entropy flux arriving on earth is to be calculated. Secondly, the interaction between the incoming radiation and the receiver surface is dentified 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.

KW - Energy conversion

KW - Irreversibility

KW - Radiation entropy

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AN - SCOPUS:2642562806

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SP - 167

EP - 171

BT - Energy and the Environment

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A2 - Tong, T.W.

A2 - Sarlos, G.

CY - Shanghai

T2 - International Conference on Energy and the Environment

Y2 - 11 December 2003 through 13 December 2003

ER -

Research@Leibniz University

Entropy production in solar energy conversion

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