Fouling on an inclined thick flat plate in a channel

This study investigates numerically particulate fouling and its effect on heat transfer for an inclined thick flat plate with volumetric heat generation constrained in a channel. Fouling is considered as the net effect of particle deposition modeled as a first order deposition reaction and shear str...

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Main Authors: Hongying, Li, Islam, M. D. Didarul, Goharzadeh, Afshin, Fatt, Yap Yit
Format: Conference Proceeding
Language:English
Subjects:
Dimensionless numbers
Finite volume method
Flat plates
Fouling
Heat generation
Heat transfer
Particle deposition
Peclet number
Shear stress
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Islam, M. D. Didarul
Goharzadeh, Afshin
Fatt, Yap Yit
description This study investigates numerically particulate fouling and its effect on heat transfer for an inclined thick flat plate with volumetric heat generation constrained in a channel. Fouling is considered as the net effect of particle deposition modeled as a first order deposition reaction and shear stress induced deposit erosion modeled using a threshold law. The evolving fluid-deposit interface is captured via a level-set function. The governing equations are solved using a finite volume method. The effect of various important dimensionless parameters: particle Peclet number, Damkholer number, erosion number and dimensionless critical shear stress, are assessed for their impact on the flow, deposit morphology and heat transfer.
doi_str_mv 10.1063/5.0228298
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D. Didarul ; Goharzadeh, Afshin ; Fatt, Yap Yit</creator><contributor>Saptoadi, Harwin ; Ariyadi, Hifni Mukhtar ; Deendarlianto ; Indarto ; Putra, Robertus Dhimas Dhewangga</contributor><creatorcontrib>Hongying, Li ; Islam, M. D. Didarul ; Goharzadeh, Afshin ; Fatt, Yap Yit ; Saptoadi, Harwin ; Ariyadi, Hifni Mukhtar ; Deendarlianto ; Indarto ; Putra, Robertus Dhimas Dhewangga</creatorcontrib><description>This study investigates numerically particulate fouling and its effect on heat transfer for an inclined thick flat plate with volumetric heat generation constrained in a channel. Fouling is considered as the net effect of particle deposition modeled as a first order deposition reaction and shear stress induced deposit erosion modeled using a threshold law. The evolving fluid-deposit interface is captured via a level-set function. The governing equations are solved using a finite volume method. 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source American Institute of Physics:Jisc Collections:Transitional Journals Agreement 2021-23 (Reading list)
subjects Dimensionless numbers
Finite volume method
Flat plates
Fouling
Heat generation
Heat transfer
Particle deposition
Peclet number
Shear stress
title Fouling on an inclined thick flat plate in a channel
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