This work describes the thermoeconomic study of an integrated combined cycle parabolic trough power plant. The parabolic trough plant will economize boiler activity, and thus the thermoeconomic optimization of the configuration of the boiler, including the parabolic trough plant, will be achieved. The objective is to obtain the optimum design parameters for the boiler and the size of the parabolic field. The proposal is to apply the methodology employed by Duran [1] and Valde´s et. al. [2], but with the inclusion of the parabolic trough plant into the optimization problem. It is important to point out that the optimization model be applied to a single pressure level configuration. For future works, it is proposed that the same model be applied to different configurations of integrated combined cycle solar power plants. As a result the optimum thermoeconomic design will be obtained for a parabolic trough plant used to economize the HRSG.
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ASME 2010 4th International Conference on Energy Sustainability
May 17–22, 2010
Phoenix, Arizona, USA
Conference Sponsors:
- Advanced Energy Systems Division and Solar Energy Division
ISBN:
978-0-7918-4394-9
PROCEEDINGS PAPER
Thermoeconomic Study of a Small Parabolic Trough Solar Plant
M. D. Duran,
M. D. Duran
Universidad Auto´noma del Estado de Me´xico, Toluca, Me´xico
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E. A. Rinco´n,
E. A. Rinco´n
Universidad Auto´noma del Estado de Me´xico, Toluca, Me´xico
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M. Sa´nchez
M. Sa´nchez
Universidad Auto´noma del Estado de Me´xico, Toluca, Me´xico
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M. D. Duran
Universidad Auto´noma del Estado de Me´xico, Toluca, Me´xico
E. A. Rinco´n
Universidad Auto´noma del Estado de Me´xico, Toluca, Me´xico
M. Sa´nchez
Universidad Auto´noma del Estado de Me´xico, Toluca, Me´xico
Paper No:
ES2010-90279, pp. 953-958; 6 pages
Published Online:
December 22, 2010
Citation
Duran, MD, Rinco´n, EA, & Sa´nchez, M. "Thermoeconomic Study of a Small Parabolic Trough Solar Plant." Proceedings of the ASME 2010 4th International Conference on Energy Sustainability. ASME 2010 4th International Conference on Energy Sustainability, Volume 1. Phoenix, Arizona, USA. May 17–22, 2010. pp. 953-958. ASME. https://doi.org/10.1115/ES2010-90279
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