Predicting the effective thermal conductivity of polydispersed beds of softwood bark and softwood char |
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Authors: | Murlidhar Gupta |
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Affiliation: | Department of Chemical Engineering, Université Laval, Sainte-Foy, Qué., Canada G1K 7P4 |
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Abstract: | In this paper, the effective thermal conductivity (ETC) of softwood bark and softwood char particle beds which are highly polydispersed has been studied theoretically and experimentally. Use of the linear packing theory and unit cell model of heat conduction enabled to express ETC of polydisperded beds as a function of particle size distribution. Each of the softwood bark and softwood char samples were sieved into seven fractions. The initial porosity and binary packing size ratio of the particles have been characterized as a function of mean sieve size. ETC of polydispersed beds of bark and char has been predicted as a function of particle size distribution. Model predictions were in good agreement with the experimental measurements. The proposed approach can be used to predict the ETC of any size distribution of softwood bark and softwood char beds without measuring the in situ bed porosity. |
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Keywords: | Effective thermal conductivity Bed porosity Heat transfer Unit cell Polydispersed modelling Linear packing theory Softwood bark Softwood char |
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