Managing Heat Transfer Intensity in a Fluidized Particle-in-Tube Solar Receiver

Managing Heat Transfer Intensity in a Fluidized Particle-in-Tube Solar Receiver

Particle flow structure and associated heat transfer coefficient are examined as a function of temperature in a single-tube fluidized bed solar receiver operating in upward particle flow mode. It is found that temperature has a strong effect on both fluidization regimes and wall-to-bed heat transfer...

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Veröffentlicht in:SolarPACES Conference Proceedings 2024-10, Vol.2
Hauptverfasser: Gueguen, Ronny, Mer, Samuel, Toutant, Adrien, Bataille, Françoise, Flamant, Gilles
Format: Artikel
Sprache:eng
Schlagworte:
Chemical and Process Engineering
Engineering Sciences
Fluidized Bed
Heat Transfer
Particle-Driven CSP
Reactive fluid environment
Solar Receiver
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Zusammenfassung:Particle flow structure and associated heat transfer coefficient are examined as a function of temperature in a single-tube fluidized bed solar receiver operating in upward particle flow mode. It is found that temperature has a strong effect on both fluidization regimes and wall-to-bed heat transfer coefficient that varies in the range 800-1200 W/(m2.K). Turbulent fluidization regime results in the most intense heat transfer between the irradiated wall and the fluidized particle.
ISSN:2751-9899
2751-9899
DOI:10.52825/solarpaces.v2i.834