Evaluation of the mixing process based on a disintegrating rate model of the powder agglomerates

Munetake Satoh; Tatsumori Yoshida; Takeshi Yanagida; Tomohiro Iwasaki; Harumoto Kimura

doi:10.1016/S0921-8831(08)60567-1

Evaluation of the mixing process based on a disintegrating rate model of the powder agglomerates

Munetake Satoh, Tatsumori Yoshida, Takeshi Yanagida, Tomohiro Iwasaki, Harumoto Kimura

Research output: Contribution to journal › Article › peer-review

8 Citations (Scopus)

Abstract

The mixing process of powders in an agitation type of solid mixer was described based on a modified comminution model. The mixing procedure for the fine and adhesive powders was expressed by means of the disintegration process of the tracer agglomerates (iron-oxide) in the bulk powder bed (calcium carbonate) in this model. The hypothetical breakage region (maximum stress solid volume) formed around the impeller passing through the powder bed was defined as functions of the scale of the mixer vessel, the number of impeller blades and the rotary speed. Model parameters of the selection function and the breakage distribution function were determined by measuring the changing of size and distribution with time for the agglomerates of the tracer. The effects of the scale of the mixer and several operating conditions on the mixing processes were discussed using the presented model and experimental results.

Original language	English
Pages (from-to)	377-390
Number of pages	14
Journal	Advanced Powder Technology
Volume	9
Issue number	4
DOIs	https://doi.org/10.1016/S0921-8831(08)60567-1
Publication status	Published - 1998
Externally published	Yes

All Science Journal Classification (ASJC) codes

Chemical Engineering(all)
Mechanics of Materials

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10.1016/S0921-8831(08)60567-1

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title = "Evaluation of the mixing process based on a disintegrating rate model of the powder agglomerates",

abstract = "The mixing process of powders in an agitation type of solid mixer was described based on a modified comminution model. The mixing procedure for the fine and adhesive powders was expressed by means of the disintegration process of the tracer agglomerates (iron-oxide) in the bulk powder bed (calcium carbonate) in this model. The hypothetical breakage region (maximum stress solid volume) formed around the impeller passing through the powder bed was defined as functions of the scale of the mixer vessel, the number of impeller blades and the rotary speed. Model parameters of the selection function and the breakage distribution function were determined by measuring the changing of size and distribution with time for the agglomerates of the tracer. The effects of the scale of the mixer and several operating conditions on the mixing processes were discussed using the presented model and experimental results.",

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T1 - Evaluation of the mixing process based on a disintegrating rate model of the powder agglomerates

AU - Satoh, Munetake

AU - Yoshida, Tatsumori

AU - Yanagida, Takeshi

AU - Iwasaki, Tomohiro

AU - Kimura, Harumoto

PY - 1998

Y1 - 1998

N2 - The mixing process of powders in an agitation type of solid mixer was described based on a modified comminution model. The mixing procedure for the fine and adhesive powders was expressed by means of the disintegration process of the tracer agglomerates (iron-oxide) in the bulk powder bed (calcium carbonate) in this model. The hypothetical breakage region (maximum stress solid volume) formed around the impeller passing through the powder bed was defined as functions of the scale of the mixer vessel, the number of impeller blades and the rotary speed. Model parameters of the selection function and the breakage distribution function were determined by measuring the changing of size and distribution with time for the agglomerates of the tracer. The effects of the scale of the mixer and several operating conditions on the mixing processes were discussed using the presented model and experimental results.

AB - The mixing process of powders in an agitation type of solid mixer was described based on a modified comminution model. The mixing procedure for the fine and adhesive powders was expressed by means of the disintegration process of the tracer agglomerates (iron-oxide) in the bulk powder bed (calcium carbonate) in this model. The hypothetical breakage region (maximum stress solid volume) formed around the impeller passing through the powder bed was defined as functions of the scale of the mixer vessel, the number of impeller blades and the rotary speed. Model parameters of the selection function and the breakage distribution function were determined by measuring the changing of size and distribution with time for the agglomerates of the tracer. The effects of the scale of the mixer and several operating conditions on the mixing processes were discussed using the presented model and experimental results.

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Evaluation of the mixing process based on a disintegrating rate model of the powder agglomerates

Abstract

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