EFFECTIVE THERMAL CONDUCTIVITY OF BINARY MIXTURES AT HIGH SOLID TO GAS CONDUCTIVITY RATIOS

P. Adnani; I. Catton; A.R. Raffray; M.A. Abdou

doi:10.1080/00986449308936123

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EFFECTIVE THERMAL CONDUCTIVITY OF BINARY MIXTURES AT HIGH SOLID TO GAS CONDUCTIVITY RATIOS

Journal article

Peer reviewed

EFFECTIVE THERMAL CONDUCTIVITY OF BINARY MIXTURES AT HIGH SOLID TO GAS CONDUCTIVITY RATIOS

P. Adnani, I. Catton, A.R. Raffray and M.A. Abdou

Chemical engineering communications, Vol.120(1), pp.45-58

01/02/1993

DOI: https://doi.org/10.1080/00986449308936123

Abstract

Binary mixtures

Correlation for binary mixtures

High solid-to-gas conductivity ratios

Influence of gas pressure

Thermal conductivity

The effective thermal conductivity of single size and binary mixtures of packed particle beds with stagnant gas at high solid/gas conductivity ratios is determined by a deterministic, unit cell approach. The model results are shown to be in good agreement with experimental data for various gas pressures and solid to gas thermal conductivity ratios up to 1300. A set of correlations for effective conductivity of binary mixtures as a function of gas pressure and particle size is derived. The effect of particle swelling on the effective conductivity of binary mixtures is studied by performing a parametric study of the contact area between the particles

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Title: EFFECTIVE THERMAL CONDUCTIVITY OF BINARY MIXTURES AT HIGH SOLID TO GAS CONDUCTIVITY RATIOS
Creators - without role: P. Adnani - University of California, Los Angeles
I. Catton - University of California, Los Angeles
A.R. Raffray - University of California, Los Angeles
M.A. Abdou - University of California, Los Angeles
Publication Details: Chemical engineering communications, Vol.120(1), pp.45-58
Publisher: Taylor & Francis Group
Identifiers: 9932650608331
Academic Unit: University of Bisha
Language: English
Resource Type: Journal article