论文信息 - A Müser - Curzon - Ahlborn engine model for photothermal conversion

A Müser - Curzon - Ahlborn engine model for photothermal conversion

We study a photothermal engine resulting from a combination of a Muser engine with an endoreversible Curzon - Ahlborn cycle. This model was proposed by De Vos as an approach to a certain class of photothermal conversion devices. We analyse that engine with and without solar concentrators. We find that typical performance quantities such as the power output, entropy production, engine efficiency and solar conversion efficiency are functions both of the collector's temperature and of the concentration factor. For the case of an engine with concentrators, we find that there is an optimum value for the concentration factor if one wishes to maximize both the solar energy efficiency and a parameter measuring a compromise between the engine's efficiency and the solar conversion efficiency.

[1] F. Curzon,et al. Efficiency of a Carnot engine at maximum power output , 1975 .

[2] A. Vos,et al. The maximum efficiency of the conversion of solar energy into wind energy , 1991 .

[3] Fernando Angulo-Brown,et al. An ecological optimization criterion for finite‐time heat engines , 1991 .

[4] Fernando Angulo-Brown,et al. A general property of endoreversible thermal engines , 1997 .

[5] Fernando Angulo-Brown,et al. A nonendoreversible model for wind energy as a solar‐driven heat engine , 1996 .

[6] A. D. Vos,et al. Entropy fluxes, endoreversibility, and solar energy conversion , 1993 .

[7] Helmut Müser. Thermodynamische Behandlung von Elektronenprozessen in Halbleiter-Randschichten , 1957 .

[8] P. Landsberg,et al. The thermodynamics of the conversion of radiation energy for photovoltaics , 1989 .

[9] Y. Zarmi,et al. Wind energy as a solar‐driven heat engine: A thermodynamic approach , 1989 .

[10] A. D. Vos,et al. Endoreversible thermodynamics of solar energy conversion , 1992 .