Modelling overall particle motion in fluidised beds for top-spray coating processes

Modelling overall particle motion in fluidised beds for top-spray coating processes

A mathematical model predicting the overall particle motion in liquid-sprayed gas-solid fluidised beds has been developed. The proposed model is a superposition of bubble-induced particle motion and particle random walk. The model was validated using experimental particle residence times from litera...

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Bibliographic Details
Published in:Particuology Vol. 11; no. 5; pp. 490 - 505
Main Authors: Vanderroost, Mike, Ronsse, Frederik, Dewettinck, Koen, Pieters, Jan G.
Format: Journal Article
Language:English
Published: Elsevier B.V 01-10-2013
Subjects:
Acceptability
Atomizing
Ejection
Fluidized bed coating
Fluidized beds
Freeboard
Mathematical model
Mathematical models
Particle motion
Particle residence time
Simulation
协议模型
喷射距离
喷涂工艺
模型预测
流化床
粒子运动
运动模型
验证实验
Particle residence time
Simulation
Mathematical model
Fluidized bed coating
Particle motion
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Summary:A mathematical model predicting the overall particle motion in liquid-sprayed gas-solid fluidised beds has been developed. The proposed model is a superposition of bubble-induced particle motion and particle random walk. The model was validated using experimental particle residence times from literature. Good agreement between experimental and model-predicted residence times was obtained for those cases where atomisation air was absent and on the condition of the inclusion of a so-called "dead zone". The "dead zone", being a region of stagnant particles in the annular bottom part of the bed, has also been previously reported in literature. In case atomisation air was present, a less favourable agreement was seen between the model and the experiment. As the atomisatinn air has been shown to significantly alter the ejection distance of particles in the freeboard, recalibration of the ejection height parameter has been demonstrated to obtain an acceptable agreement between model-predicted and experimental data.
Bibliography:A mathematical model predicting the overall particle motion in liquid-sprayed gas-solid fluidised beds has been developed. The proposed model is a superposition of bubble-induced particle motion and particle random walk. The model was validated using experimental particle residence times from literature. Good agreement between experimental and model-predicted residence times was obtained for those cases where atomisation air was absent and on the condition of the inclusion of a so-called "dead zone". The "dead zone", being a region of stagnant particles in the annular bottom part of the bed, has also been previously reported in literature. In case atomisation air was present, a less favourable agreement was seen between the model and the experiment. As the atomisatinn air has been shown to significantly alter the ejection distance of particles in the freeboard, recalibration of the ejection height parameter has been demonstrated to obtain an acceptable agreement between model-predicted and experimental data.
Fluidized bed coatingParticLe residence timeMathematical modelSimulationParticle motion
11-5671/O3
ObjectType-Article-2
SourceType-Scholarly Journals-1
ObjectType-Feature-1
content type line 23
ISSN:1674-2001
2210-4291
DOI:10.1016/j.partic.2012.07.012