Progress in heat transfer research for high-temperature solar thermal applications

•Comprehensive review of heat transfer research for high-temperature solar thermal applications.•Principles of solar concentration.•Convection heat transfer in solar receivers.•Liquid–metal heat transfer.•Heat transfer in two-phase particle-gas flows and gas-saturated-porous structures. High-tempera...

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Veröffentlicht in:	Applied thermal engineering 2021-02, Vol.184, p.116137, Article 116137
Hauptverfasser:	Lipiński, Wojciech, Abbasi-Shavazi, Ehsan, Chen, Jingjing, Coventry, Joe, Hangi, Morteza, Iyer, Siddharth, Kumar, Apurv, Li, Lifeng, Li, Sha, Pye, John, Torres, Juan F., Wang, Bo, Wang, Ye, Wheeler, Vincent M.
Format:	Artikel
Sprache:	eng
Schlagworte:	Chemical fuels Convective heat transfer Design optimization Gas flow Gas-solid systems Heat conductivity Heat exchangers Heat transfer High temperature Liquid metals Solar chemistry Solar collectors Solar energy Solar heating Solar radiation Solar thermal Studies Systems design Temperature Thermal energy Thermal engineering Thermal science
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container_start_page	116137
container_title	Applied thermal engineering
container_volume	184
creator	Lipiński, Wojciech Abbasi-Shavazi, Ehsan Chen, Jingjing Coventry, Joe Hangi, Morteza Iyer, Siddharth Kumar, Apurv Li, Lifeng Li, Sha Pye, John Torres, Juan F. Wang, Bo Wang, Ye Wheeler, Vincent M.
description	•Comprehensive review of heat transfer research for high-temperature solar thermal applications.•Principles of solar concentration.•Convection heat transfer in solar receivers.•Liquid–metal heat transfer.•Heat transfer in two-phase particle-gas flows and gas-saturated-porous structures. High-temperature solar thermal energy systems make use of concentrated solar radiation to generate electricity, produce chemical fuels, and drive energy-intensive processing of materials. Heat transfer analyses are essential for system design and optimisation. This article reviews the progress, challenges and opportunities in heat transfer research as applied to high-temperature solar thermal and thermochemical energy systems. The topics discussed include fundamentals of concentrated solar energy collection, convective heat transfer in solar receivers, application of liquid metals as heat transfer media, and heat transfer in non-reacting and reacting two-phase solid–gas systems such as particle–gas flows and gas-saturated porous structures.
doi_str_mv	10.1016/j.applthermaleng.2020.116137
format	Article
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subjects	Chemical fuels Convective heat transfer Design optimization Gas flow Gas-solid systems Heat conductivity Heat exchangers Heat transfer High temperature Liquid metals Solar chemistry Solar collectors Solar energy Solar heating Solar radiation Solar thermal Studies Systems design Temperature Thermal energy Thermal engineering Thermal science
title	Progress in heat transfer research for high-temperature solar thermal applications
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