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Mixing and segregation kinetics in a strongly segregated gas-fluidized bed

The rate of approach to steady state of a gas-fluidized bed composed of a mixture of Fe and glass particles was determined, starting from both initially fully mixed and initially completely segregated conditions. The data were interpreted using a model based on a pure jetsam statum underlying a unif...

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Published in:	Powder technology 1987-11, Vol.53 (1), p.31-38
Main Authors:	BEECKMANS, J. M, STAHL, B
Format:	Article
Language:	English
Subjects:	Applied sciences Chemical engineering Exact sciences and technology Fluidization
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creator	BEECKMANS, J. M STAHL, B
description	The rate of approach to steady state of a gas-fluidized bed composed of a mixture of Fe and glass particles was determined, starting from both initially fully mixed and initially completely segregated conditions. The data were interpreted using a model based on a pure jetsam statum underlying a uniform stratum of mixed composition. The model allowed calculation of the average upward velocity of jetsam particles across the interface between the strata, and of the average downward velocity of jetsam particles in the upper stratum. With some exceptions, values of the two parameters calculated using the two types of runs agreed well. The mean upward jetsam velocity at the interface and the jetsam descent velocity in the upper stratum were both found to be strongly increasing functions of the excess fluidization velocity. 11 ref.--AA
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source	Backfile Package - Chemical Engineering (Legacy) [YCC]
subjects	Applied sciences Chemical engineering Exact sciences and technology Fluidization
title	Mixing and segregation kinetics in a strongly segregated gas-fluidized bed
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