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Investigations on mesoscale structur...

Chen, Cheng.

Investigations on mesoscale structure in gas-solid fluidization and heterogeneous drag model[electronic resource] /

Record Type:	Language materials, printed : Monograph/item
[NT 15000414]:	660.284292
Title/Author:	Investigations on mesoscale structure in gas-solid fluidization and heterogeneous drag model/ by Cheng Chen.
Author:	Chen, Cheng.
Published:	Berlin, Heidelberg : : Springer Berlin Heidelberg :, 2016.
Description:	xvii, 118 p. : : ill., digital ;; 24 cm.
Contained By:	Springer eBooks
Subject:	Fluidization.
Subject:	Drag (Aerodynamics)
Subject:	Engineering.
Subject:	Engineering Thermodynamics, Heat and Mass Transfer.
Subject:	Thermodynamics.
Subject:	Industrial Chemistry/Chemical Engineering.
ISBN:	9783662483732
ISBN:	9783662483718
[NT 15000228]:	Introduction -- Analysis on the EMMS Theory -- Cluster Model and Heterogeneous Drag Model -- Condition Universality of Heterogeneous Drag Model -- Conclusions and Outlook.
[NT 15000229]:	This book explores the Energy Minimization Multi-scale (EMMS) theory and the drag model for heterogeneous gas-solid fluidized flows. The results show that the cluster density plays a critical role with regard to drag. A novel cluster model is proposed and indicates that the profile of cluster density is single-peaked with the maximum value located at solid concentrations of 0.1~0.15. The EMMS theory is improved with the cluster model and an accurate drag model is developed. The model's universality is achieved by investigating the relationship between the heterogeneity and flow patterns. The drag model is subsequently verified numerically and experimentally.
Online resource:	http://dx.doi.org/10.1007/978-3-662-48373-2

Investigations on mesoscale structure in gas-solid fluidization and heterogeneous drag model[electronic resource] /
Chen, Cheng.

Investigations on mesoscale structure in gas-solid fluidization and heterogeneous drag model[electronic resource] /by Cheng Chen. - Berlin, Heidelberg :Springer Berlin Heidelberg :2016. - xvii, 118 p. :ill., digital ;24 cm. - Springer theses,2190-5053. - Springer theses..

Introduction -- Analysis on the EMMS Theory -- Cluster Model and Heterogeneous Drag Model -- Condition Universality of Heterogeneous Drag Model -- Conclusions and Outlook.

This book explores the Energy Minimization Multi-scale (EMMS) theory and the drag model for heterogeneous gas-solid fluidized flows. The results show that the cluster density plays a critical role with regard to drag. A novel cluster model is proposed and indicates that the profile of cluster density is single-peaked with the maximum value located at solid concentrations of 0.1~0.15. The EMMS theory is improved with the cluster model and an accurate drag model is developed. The model's universality is achieved by investigating the relationship between the heterogeneity and flow patterns. The drag model is subsequently verified numerically and experimentally.

ISBN: 9783662483732

Standard No.: 10.1007/978-3-662-48373-2doiSubjects--Topical Terms:

652999
Fluidization.

LC Class. No.: TP156.F65

Dewey Class. No.: 660.284292

Investigations on mesoscale structure in gas-solid fluidization and heterogeneous drag model[electronic resource] /
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245 1 0 $a Investigations on mesoscale structure in gas-solid fluidization and heterogeneous drag model $h [electronic resource] / $c by Cheng Chen.
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300 $a xvii, 118 p. : $b ill., digital ; $c 24 cm.
490 1 $a Springer theses, $x 2190-5053
505 0 $a Introduction -- Analysis on the EMMS Theory -- Cluster Model and Heterogeneous Drag Model -- Condition Universality of Heterogeneous Drag Model -- Conclusions and Outlook.
520 $a This book explores the Energy Minimization Multi-scale (EMMS) theory and the drag model for heterogeneous gas-solid fluidized flows. The results show that the cluster density plays a critical role with regard to drag. A novel cluster model is proposed and indicates that the profile of cluster density is single-peaked with the maximum value located at solid concentrations of 0.1~0.15. The EMMS theory is improved with the cluster model and an accurate drag model is developed. The model's universality is achieved by investigating the relationship between the heterogeneity and flow patterns. The drag model is subsequently verified numerically and experimentally.
650 0 $a Fluidization. $3 652999
650 0 $a Drag (Aerodynamics) $3 653000
650 1 4 $a Engineering. $3 372756
650 2 4 $a Engineering Thermodynamics, Heat and Mass Transfer. $3 463870
650 2 4 $a Thermodynamics. $3 172172
650 2 4 $a Industrial Chemistry/Chemical Engineering. $3 463779
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950 $a Engineering (Springer-11647)

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