MHD flow of nanofluids over an exponentially stretching sheet in a porous medium with convective boundary conditions

T. Hayat; M. Imtiaz; A. Alsaedi; R. Mansoor

doi:10.1088/1674-1056/23/5/054701

MHD flow of nanofluids over an exponentially stretching sheet in a porous medium with convective boundary conditions

T. Hayat
, M. Imtiaz
, A. Alsaedi
, R. Mansoor

Quaid-I-Azam University
Faculty of Sciences, King Abdulaziz University

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

88 Scopus citations

Abstract

This article concentrates on the steady magnetohydrodynamic (MHD) flow of viscous nanofluid. The flow is caused by a permeable exponentially stretching surface. An incompressible fluid fills the porous space. A comparative study is made for the nanoparticles namely Copper (Cu), Silver (Ag), Alumina (Al ₂O₃) and Titanium Oxide (TiO₂). Water is treated as a base fluid. Convective type boundary conditions are employed in modeling the heat transfer process. The non-linear partial differential equations governing the flow are reduced to an ordinary differential equation by similarity transformations. The obtained equations are then solved for the development of series solutions. Convergence of the obtained series solutions is explicitly discussed. The effects of different parameters on the velocity and temperature profiles are shown and analyzed through graphs.

Original language	English
Article number	054701
Journal	Chinese Physics B
Volume	23
Issue number	5
DOIs	https://doi.org/10.1088/1674-1056/23/5/054701
State	Published - May 2014
Externally published	Yes

Keywords

MHD nanofluid
convective boundary conditions
exponentially stretching sheet
porous medium

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10.1088/1674-1056/23/5/054701

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title = "MHD flow of nanofluids over an exponentially stretching sheet in a porous medium with convective boundary conditions",

abstract = "This article concentrates on the steady magnetohydrodynamic (MHD) flow of viscous nanofluid. The flow is caused by a permeable exponentially stretching surface. An incompressible fluid fills the porous space. A comparative study is made for the nanoparticles namely Copper (Cu), Silver (Ag), Alumina (Al 2O3) and Titanium Oxide (TiO2). Water is treated as a base fluid. Convective type boundary conditions are employed in modeling the heat transfer process. The non-linear partial differential equations governing the flow are reduced to an ordinary differential equation by similarity transformations. The obtained equations are then solved for the development of series solutions. Convergence of the obtained series solutions is explicitly discussed. The effects of different parameters on the velocity and temperature profiles are shown and analyzed through graphs.",

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AU - Hayat, T.

AU - Imtiaz, M.

AU - Alsaedi, A.

AU - Mansoor, R.

PY - 2014/5

Y1 - 2014/5

N2 - This article concentrates on the steady magnetohydrodynamic (MHD) flow of viscous nanofluid. The flow is caused by a permeable exponentially stretching surface. An incompressible fluid fills the porous space. A comparative study is made for the nanoparticles namely Copper (Cu), Silver (Ag), Alumina (Al 2O3) and Titanium Oxide (TiO2). Water is treated as a base fluid. Convective type boundary conditions are employed in modeling the heat transfer process. The non-linear partial differential equations governing the flow are reduced to an ordinary differential equation by similarity transformations. The obtained equations are then solved for the development of series solutions. Convergence of the obtained series solutions is explicitly discussed. The effects of different parameters on the velocity and temperature profiles are shown and analyzed through graphs.

AB - This article concentrates on the steady magnetohydrodynamic (MHD) flow of viscous nanofluid. The flow is caused by a permeable exponentially stretching surface. An incompressible fluid fills the porous space. A comparative study is made for the nanoparticles namely Copper (Cu), Silver (Ag), Alumina (Al 2O3) and Titanium Oxide (TiO2). Water is treated as a base fluid. Convective type boundary conditions are employed in modeling the heat transfer process. The non-linear partial differential equations governing the flow are reduced to an ordinary differential equation by similarity transformations. The obtained equations are then solved for the development of series solutions. Convergence of the obtained series solutions is explicitly discussed. The effects of different parameters on the velocity and temperature profiles are shown and analyzed through graphs.

KW - MHD nanofluid

KW - convective boundary conditions

KW - exponentially stretching sheet

KW - porous medium

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JO - Chinese Physics B

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MHD flow of nanofluids over an exponentially stretching sheet in a porous medium with convective boundary conditions

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