Soret and dufour effects on the stagnation-point flow of a micropolar fluid toward a stretching sheet

T. Hayat; M. Mustafa; S. Obaidat

doi:10.1115/1.4003505

Soret and dufour effects on the stagnation-point flow of a micropolar fluid toward a stretching sheet

T. Hayat
, M. Mustafa
, S. Obaidat

Quaid-I-Azam University
King Saud University

Research output: Contribution to journal › Article › peer-review

18 Scopus citations

Abstract

This communication reports the heat and mass transfer analysis in the stagnation-point flow toward a stretching sheet. An incompressible micropolar fluid takes into account the diffusion-thermo- (Dufour) and thermal-diffusion (Soret) effects. The arising nonlinear differential system is solved by homotopy analysis method. Convergence of the obtained homotopy solutions is clearly justified. Special emphasis has been given to various physical parameters through graphs and tables. It is noticed that fields are influenced appreciably with the variation of embedding parameters. A comparison of the present results with the existing numerical solution is discussed in a limiting sense.

Original language	English
Pages (from-to)	21202-1-21202-9
Journal	Journal of Fluids Engineering
Volume	133
Issue number	2
DOIs	https://doi.org/10.1115/1.4003505
State	Published - Feb 2011
Externally published	Yes

Keywords

Homotopy solution
Micropolar fluid
Nonlinear problems
Stretching sheet

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10.1115/1.4003505

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title = "Soret and dufour effects on the stagnation-point flow of a micropolar fluid toward a stretching sheet",

abstract = "This communication reports the heat and mass transfer analysis in the stagnation-point flow toward a stretching sheet. An incompressible micropolar fluid takes into account the diffusion-thermo- (Dufour) and thermal-diffusion (Soret) effects. The arising nonlinear differential system is solved by homotopy analysis method. Convergence of the obtained homotopy solutions is clearly justified. Special emphasis has been given to various physical parameters through graphs and tables. It is noticed that fields are influenced appreciably with the variation of embedding parameters. A comparison of the present results with the existing numerical solution is discussed in a limiting sense.",

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author = "T. Hayat and M. Mustafa and S. Obaidat",

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AU - Hayat, T.

AU - Mustafa, M.

AU - Obaidat, S.

PY - 2011/2

Y1 - 2011/2

N2 - This communication reports the heat and mass transfer analysis in the stagnation-point flow toward a stretching sheet. An incompressible micropolar fluid takes into account the diffusion-thermo- (Dufour) and thermal-diffusion (Soret) effects. The arising nonlinear differential system is solved by homotopy analysis method. Convergence of the obtained homotopy solutions is clearly justified. Special emphasis has been given to various physical parameters through graphs and tables. It is noticed that fields are influenced appreciably with the variation of embedding parameters. A comparison of the present results with the existing numerical solution is discussed in a limiting sense.

AB - This communication reports the heat and mass transfer analysis in the stagnation-point flow toward a stretching sheet. An incompressible micropolar fluid takes into account the diffusion-thermo- (Dufour) and thermal-diffusion (Soret) effects. The arising nonlinear differential system is solved by homotopy analysis method. Convergence of the obtained homotopy solutions is clearly justified. Special emphasis has been given to various physical parameters through graphs and tables. It is noticed that fields are influenced appreciably with the variation of embedding parameters. A comparison of the present results with the existing numerical solution is discussed in a limiting sense.

KW - Homotopy solution

KW - Micropolar fluid

KW - Nonlinear problems

KW - Stretching sheet

UR - https://www.scopus.com/pages/publications/85011991397

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JO - Journal of Fluids Engineering

JF - Journal of Fluids Engineering

IS - 2

ER -

Soret and dufour effects on the stagnation-point flow of a micropolar fluid toward a stretching sheet

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Keywords

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