Dynamics of fluid flow through Soret-Dufour impacts subject to upward and downward motion of rotating disk

Flow features are encountered through numerical way using central finite differences approximations and Successive over Relaxation (SOR) method. Fluid flow is generated due to disk rotation, which moves in vertical direction both up and down. Similarity variables are accomplished in such a way that...

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Published inInternational communications in heat and mass transfer Vol. 120; p. 105025
Main Authors Shehzad, S.A., Abbas, Z., Rauf, A., Abdelmalek, Zahra
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.01.2021
Subjects
Convective conditions
Rotating disk
SOR method
Soret Dufour effects
Three-dimensional flow
SOR method
Soret Dufour effects
Convective conditions
Rotating disk
Three-dimensional flow
Online AccessGet full text
ISSN0735-1933
1879-0178
DOI10.1016/j.icheatmasstransfer.2020.105025

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Abstract Flow features are encountered through numerical way using central finite differences approximations and Successive over Relaxation (SOR) method. Fluid flow is generated due to disk rotation, which moves in vertical direction both up and down. Similarity variables are accomplished in such a way that similarity equations can be limited to those communicated in viscous pumping analysis of traditional Von Karman problem for non-vertical motion of rotating disk. The significance of Soret and Dufour effects is also incorporated in fluid model. Additionally, the occurrence of convective boundary conditions associated to heat and mass are of physical concern in existing study. Graphical descriptions and tabular structures of numerical results are presented. The impacts of wall injection and suction are reviewed. It is judged that the uphill motion of rotating disk contributes to similar observations as in scenario of injection, while the downward direction signifies the wall suction like effects.
AbstractList Flow features are encountered through numerical way using central finite differences approximations and Successive over Relaxation (SOR) method. Fluid flow is generated due to disk rotation, which moves in vertical direction both up and down. Similarity variables are accomplished in such a way that similarity equations can be limited to those communicated in viscous pumping analysis of traditional Von Karman problem for non-vertical motion of rotating disk. The significance of Soret and Dufour effects is also incorporated in fluid model. Additionally, the occurrence of convective boundary conditions associated to heat and mass are of physical concern in existing study. Graphical descriptions and tabular structures of numerical results are presented. The impacts of wall injection and suction are reviewed. It is judged that the uphill motion of rotating disk contributes to similar observations as in scenario of injection, while the downward direction signifies the wall suction like effects.
ArticleNumber 105025
Author Abdelmalek, Zahra
Shehzad, S.A.
Rauf, A.
Abbas, Z.
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  organization: Department of Mathematics, COMSATS University Islamabad, Sahiwal Campus, 57000, Pakistan
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  givenname: Zahra
  surname: Abdelmalek
  fullname: Abdelmalek, Zahra
  email: zahraabdelmalek@duytan.edu.vn
  organization: Institute of Research and Development, Duy Tan University, Da Nang 550000, Vietnam
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Keywords SOR method
Soret Dufour effects
Convective conditions
Rotating disk
Three-dimensional flow
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Snippet Flow features are encountered through numerical way using central finite differences approximations and Successive over Relaxation (SOR) method. Fluid flow is...
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StartPage 105025
SubjectTerms Convective conditions
Rotating disk
SOR method
Soret Dufour effects
Three-dimensional flow
Title Dynamics of fluid flow through Soret-Dufour impacts subject to upward and downward motion of rotating disk
URI https://dx.doi.org/10.1016/j.icheatmasstransfer.2020.105025
Volume 120
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