Lie group analysis for the effect of temperature-dependent fluid viscosity with thermophoresis on magnetohydrodynamic free convective heat and mass transfer over a porous stretching surface
This article concerns with a steady two-dimensional flow of an electrically conducting incompressible fluid over a vertical stretching sheet. A scaling group of transformations is applied to the governing equations. The system remains invariant due to some relations among the parameters of the trans...
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2010
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my.utm.262992018-11-09T08:31:50Z http://eprints.utm.my/id/eprint/26299/ Lie group analysis for the effect of temperature-dependent fluid viscosity with thermophoresis on magnetohydrodynamic free convective heat and mass transfer over a porous stretching surface Saidina Amin, Norsarahaida Kandasamya, R. Muhaimin, I. Q Science This article concerns with a steady two-dimensional flow of an electrically conducting incompressible fluid over a vertical stretching sheet. A scaling group of transformations is applied to the governing equations. The system remains invariant due to some relations among the parameters of the transformations. Impact of thermophoresis particle deposition in the presence of temperature-dependent fluid viscosity plays an important role on the concentration boundary layer. The results thus obtained are presented graphically and discussed. Taylor & Francis Group 2010 Article PeerReviewed Saidina Amin, Norsarahaida and Kandasamya, R. and Muhaimin, I. (2010) Lie group analysis for the effect of temperature-dependent fluid viscosity with thermophoresis on magnetohydrodynamic free convective heat and mass transfer over a porous stretching surface. International Journal Of Computational Fluid Dynamics, 24 (12). 1 - 11. ISSN 1061-8562 http://dx.doi.org/10.1080/10618561003757881 DOI:10.1080/10618561003757881 |
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Q Science Saidina Amin, Norsarahaida Kandasamya, R. Muhaimin, I. Lie group analysis for the effect of temperature-dependent fluid viscosity with thermophoresis on magnetohydrodynamic free convective heat and mass transfer over a porous stretching surface |
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This article concerns with a steady two-dimensional flow of an electrically conducting incompressible fluid over a vertical stretching sheet. A scaling group of transformations is applied to the governing equations. The system remains invariant due to some relations among the parameters of the transformations. Impact of thermophoresis particle deposition in the presence of temperature-dependent fluid viscosity plays an important role on the concentration boundary layer. The results thus obtained are presented graphically and discussed. |
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Article |
| author |
Saidina Amin, Norsarahaida Kandasamya, R. Muhaimin, I. |
| author_facet |
Saidina Amin, Norsarahaida Kandasamya, R. Muhaimin, I. |
| author_sort |
Saidina Amin, Norsarahaida |
| title |
Lie group analysis for the effect of temperature-dependent fluid viscosity with thermophoresis on magnetohydrodynamic free convective heat and mass transfer over a porous stretching surface |
| title_short |
Lie group analysis for the effect of temperature-dependent fluid viscosity with thermophoresis on magnetohydrodynamic free convective heat and mass transfer over a porous stretching surface |
| title_full |
Lie group analysis for the effect of temperature-dependent fluid viscosity with thermophoresis on magnetohydrodynamic free convective heat and mass transfer over a porous stretching surface |
| title_fullStr |
Lie group analysis for the effect of temperature-dependent fluid viscosity with thermophoresis on magnetohydrodynamic free convective heat and mass transfer over a porous stretching surface |
| title_full_unstemmed |
Lie group analysis for the effect of temperature-dependent fluid viscosity with thermophoresis on magnetohydrodynamic free convective heat and mass transfer over a porous stretching surface |
| title_sort |
lie group analysis for the effect of temperature-dependent fluid viscosity with thermophoresis on magnetohydrodynamic free convective heat and mass transfer over a porous stretching surface |
| publisher |
Taylor & Francis Group |
| publishDate |
2010 |
| url |
http://eprints.utm.my/id/eprint/26299/ http://dx.doi.org/10.1080/10618561003757881 |
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