Heat Transfer in a Fixed Bed of Straw Char

A model for the thermal conductivity of a straw char bed has been developed. The model extends the work of Yagi and Kunii to describe heat transfer in a bed of cylinders, using a relationship between the interparticle distance and the external porosity. To verify the model, thermal conductivity expe...

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Veröffentlicht in:	Energy & fuels 2003-09, Vol.17 (5), p.1251-1258
Hauptverfasser:	Fjellerup, Jan, Henriksen, Ulrik, Jensen, Anker Degn, Jensen, Peter Arendt, Glarborg, Peter
Format:	Artikel
Sprache:	eng
Schlagworte:	Applied sciences Biomass Energy Exact sciences and technology Natural energy
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container_title	Energy & fuels
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creator	Fjellerup, Jan Henriksen, Ulrik Jensen, Anker Degn Jensen, Peter Arendt Glarborg, Peter
description	A model for the thermal conductivity of a straw char bed has been developed. The model extends the work of Yagi and Kunii to describe heat transfer in a bed of cylinders, using a relationship between the interparticle distance and the external porosity. To verify the model, thermal conductivity experiments were performed on shredded and un-shredded straw char samples, varying particle size, bed packing (loose or dense), and temperature. Predictions with the model, using the measured external porosity and particle diameter as input parameters, are in agreement with measurements within the experimental uncertainty over the range of conditions investigated. The heat transfer model was used in a parametric study to evaluate the effect of gas flow rate, particle diameter, porosity, and temperature on the thermal conductivity in a straw char bed.
doi_str_mv	10.1021/ef030036n
format	Article
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The model extends the work of Yagi and Kunii to describe heat transfer in a bed of cylinders, using a relationship between the interparticle distance and the external porosity. To verify the model, thermal conductivity experiments were performed on shredded and un-shredded straw char samples, varying particle size, bed packing (loose or dense), and temperature. Predictions with the model, using the measured external porosity and particle diameter as input parameters, are in agreement with measurements within the experimental uncertainty over the range of conditions investigated. 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subjects	Applied sciences Biomass Energy Exact sciences and technology Natural energy
title	Heat Transfer in a Fixed Bed of Straw Char
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