LAPSE:2023.20976
Published Article
LAPSE:2023.20976
Feasibility Study of Freeze Recovery Options in Parabolic Trough Collector Plants Working with Molten Salt as Heat Transfer Fluid
March 21, 2023
Abstract
Parabolic trough collector (PTC) technology is currently the most mature solar technology, which has led to the accumulation of relevant operational experience. The overall performance and efficiency of these plants depends on several components, and the heat transfer fluid (HTF) is one of the most important ones. Using molten salts as HTFs has the advantage of being able to work at higher temperatures, but it also has the disadvantage of the potential freezing of the HTF in pipes and components. This paper models and evaluates two methods of freeze recovery, which is needed for this HTF system design: Heat tracing in pipes and components, and impedance melting in the solar field. The model is used to compare the parasitic consumption in three molten salts mixtures, namely Solar Salt, HiTec, and HiTec XL, and the feasibility of this system in a freezing event. After the investigation of each of these subsystems, it was concluded that freeze recovery for a molten salt plant is possible.
Parabolic trough collector (PTC) technology is currently the most mature solar technology, which has led to the accumulation of relevant operational experience. The overall performance and efficiency of these plants depends on several components, and the heat transfer fluid (HTF) is one of the most important ones. Using molten salts as HTFs has the advantage of being able to work at higher temperatures, but it also has the disadvantage of the potential freezing of the HTF in pipes and components. This paper models and evaluates two methods of freeze recovery, which is needed for this HTF system design: Heat tracing in pipes and components, and impedance melting in the solar field. The model is used to compare the parasitic consumption in three molten salts mixtures, namely Solar Salt, HiTec, and HiTec XL, and the feasibility of this system in a freezing event. After the investigation of each of these subsystems, it was concluded that freeze recovery for a molten salt plant is possible.
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Keywords
freeze recovery, heat tracing, impedance melting, molten salt, parabolic trough collector
Subject
Suggested Citation
Prieto C, Rodríguez-Sánchez A, Ruiz-Cabañas FJ, Cabeza LF. Feasibility Study of Freeze Recovery Options in Parabolic Trough Collector Plants Working with Molten Salt as Heat Transfer Fluid. (2023). LAPSE:2023.20976
Author Affiliations
Prieto C: C/Energía Solar n° 1, Abengoa Energia, 41014 Sevilla, Spain; Camino de los Descubrimientos s/n, Department of Energy Engineering, University of Seville, 41092 Seville, Spain [ORCID]
Rodríguez-Sánchez A: C/Energía Solar n° 1, Abengoa Energia, 41014 Sevilla, Spain
Ruiz-Cabañas FJ: C/Energía Solar n° 1, Abengoa Energia, 41014 Sevilla, Spain
Cabeza LF: GREiA Research Group, INSPIRES Research Centre, Universitat de Lleida, Pere de Cabrera s/n, 25001 Lleida, Spain [ORCID]
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Rodríguez-Sánchez A: C/Energía Solar n° 1, Abengoa Energia, 41014 Sevilla, Spain
Ruiz-Cabañas FJ: C/Energía Solar n° 1, Abengoa Energia, 41014 Sevilla, Spain
Cabeza LF: GREiA Research Group, INSPIRES Research Centre, Universitat de Lleida, Pere de Cabrera s/n, 25001 Lleida, Spain [ORCID]
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Journal Name
Energies
Volume
12
Issue
12
Article Number
E2340
Year
2019
Publication Date
2019-06-18
ISSN
1996-1073
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Original Submission
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PII: en12122340, Publication Type: Journal Article
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LAPSE:2023.20976
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https://doi.org/10.3390/en12122340
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Mar 21, 2023
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