Comparison of Different Technologies for Integrated Solar Combined Cycles: Analysis of Concentrating Technology and Solar Integration

Rovira, Antonio; Sánchez, Consuelo; Valdés, Manuel; Abbas, Ruben; Barbero, Rubén; Montes, María José; Muñoz, Marta; Muñoz-Antón, Javier; Ortega, Guillermo; Varela, Fernando

doi:10.3390/en11051064

Comparison of Different Technologies for Integrated Solar Combined Cycles: Analysis of Concentrating Technology and Solar Integration

Rovira, Antonio, Sánchez, Consuelo, Valdés, Manuel, Abbas, Ruben, Barbero, Rubén, Montes, María José, Muñoz, Marta, Muñoz-Antón, Javier, Ortega, Guillermo y Varela, Fernando . (2018) Comparison of Different Technologies for Integrated Solar Combined Cycles: Analysis of Concentrating Technology and Solar Integration.

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Título	Comparison of Different Technologies for Integrated Solar Combined Cycles: Analysis of Concentrating Technology and Solar Integration
Autor(es)	Rovira, Antonio Sánchez, Consuelo Valdés, Manuel Abbas, Ruben Barbero, Rubén Montes, María José Muñoz, Marta Muñoz-Antón, Javier Ortega, Guillermo Varela, Fernando
Materia(s)	Ingeniería Industrial
Abstract	This paper compares the annual performance of Integrated Solar Combined Cycles (ISCCs) using different solar concentration technologies: parabolic trough collectors (PTC), linear Fresnel reflectors (LFR) and central tower receiver (CT). Each solar technology (i.e. PTC, LFR and CT) is proposed to integrate solar energy into the combined cycle in two different ways. The first one is based on the use of solar energy to evaporate water of the steam cycle by means of direct steam generation (DSG), increasing the steam production of the high pressure level of the steam generator. The other one is based on the use of solar energy to preheat the pressurized air at the exit of the gas turbine compressor before it is introduced in the combustion chamber, reducing the fuel consumption. Results show that ISCC with DSG increases the yearly production while solar air heating reduces it due to the incremental pressure drop. However, air heating allows significantly higher solar-to-electricity efficiencies and lower heat rates. Regarding the solar technologies, PTC provides the best thermal results.
Palabras clave	integrated solar combined cycle parabolic trough collector linear Fresnel reflector central receiver system
Editor(es)	MDPI
Fecha	2018-04-25
Formato	application/pdf
Identificador	bibliuned:DptoIE-ETSI-Articulos-Fvarela-0003 http://e-spacio.uned.es/fez/view/bibliuned:DptoIE-ETSI-Articulos-Fvarela-0003
DOI - identifier	10.3390/en11051064
ISSN - identifier	1996-1073
Nombre de la revista	Energies
Número de Volumen	11
Número de Issue	5
Idioma	eng
Versión de la publicación	publishedVersion
Tipo de recurso	Article
Derechos de acceso y licencia	http://creativecommons.org/licenses/by/4.0 info:eu-repo/semantics/openAccess
Tipo de acceso	Acceso abierto
Notas adicionales	The registered version of this article, first published in Energies, is available online at the publisher's website: MDPI, https://doi.org/10.3390/en11051064
Notas adicionales	La versión registrada de este artículo, publicado por primera vez en Energies, está disponible en línea en el sitio web del editor: MDPI, https://doi.org/10.3390/en11051064

Tipo de documento:	Artículo de revista
Collections:	Departamento de Ingeniería Energética. Artículos Set de artículo Set de openaire

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Comparison of Different Technologies for Integrated Solar Combined Cycles: Analysis of Concentrating Technology and Solar Integration