MHD Three-Dimensional Free Convective Flow with Periodic Permeability and Heat Transfer of a Second-Grade Fluid

MHD Three-Dimensional Free Convective Flow with Periodic Permeability and Heat Transfer of a Second-Grade Fluid

The present study delivers the mathematical model and theoretical analysis of a three-dimensional flow in a free convection for an electrically conducting incompressible second-grade fluid through a very high porous medium circumscribed by an infinite vertical porous plate subject to a constant suct...

Full description

Bibliographic Details
Main Authors: Atifa Latif, Muhammad Afzal Rana, Babar Ahmad, Muhammad Hussan
Format: Article
Language:English
Published: Hindawi Limited 2021-01-01
Series:Mathematical Problems in Engineering
Online Access:http://dx.doi.org/10.1155/2021/2501842
id doaj-d1912b4cc422490b9cf867121b6097cf
record_format Article
spelling doaj-d1912b4cc422490b9cf867121b6097cf2021-03-01T01:14:50ZengHindawi LimitedMathematical Problems in Engineering1563-51472021-01-01202110.1155/2021/2501842MHD Three-Dimensional Free Convective Flow with Periodic Permeability and Heat Transfer of a Second-Grade FluidAtifa Latif0Muhammad Afzal Rana1Babar Ahmad2Muhammad Hussan3Department of Mathematics & StatisticsDepartment of Mathematics & StatisticsDepartment of Mathematics COMSATS UniversityDepartment of MathematicsThe present study delivers the mathematical model and theoretical analysis of a three-dimensional flow in a free convection for an electrically conducting incompressible second-grade fluid through a very high porous medium circumscribed by an infinite vertical porous plate subject to a constant suction. A uniform magnetic field along the normal to the surface of plate is applied. Periodic permeability for the medium is assumed, while velocity of free stream is taken to be uniform. Analytic expressions are presented for velocity and temperature fields, pressure, and skin friction components by perturbation technique. The impacts on these physical quantities by the physical parameters existing in the model are discussed and envisioned graphically. It is interesting to note that elastic and permeability parameters are able to control the skin friction along the main flow direction, magnetic field to reduce the pressure, and Reynolds number to control the thermal boundary layer thickness. It is also noted that temperature distribution does not depend upon permeability parameter.http://dx.doi.org/10.1155/2021/2501842
collection DOAJ
language English
format Article
sources DOAJ
author Atifa Latif
Muhammad Afzal Rana
Babar Ahmad
Muhammad Hussan
spellingShingle Atifa Latif
Muhammad Afzal Rana
Babar Ahmad
Muhammad Hussan
MHD Three-Dimensional Free Convective Flow with Periodic Permeability and Heat Transfer of a Second-Grade Fluid
Mathematical Problems in Engineering
author_facet Atifa Latif
Muhammad Afzal Rana
Babar Ahmad
Muhammad Hussan
author_sort Atifa Latif
title MHD Three-Dimensional Free Convective Flow with Periodic Permeability and Heat Transfer of a Second-Grade Fluid
title_short MHD Three-Dimensional Free Convective Flow with Periodic Permeability and Heat Transfer of a Second-Grade Fluid
title_full MHD Three-Dimensional Free Convective Flow with Periodic Permeability and Heat Transfer of a Second-Grade Fluid
title_fullStr MHD Three-Dimensional Free Convective Flow with Periodic Permeability and Heat Transfer of a Second-Grade Fluid
title_full_unstemmed MHD Three-Dimensional Free Convective Flow with Periodic Permeability and Heat Transfer of a Second-Grade Fluid
title_sort mhd three-dimensional free convective flow with periodic permeability and heat transfer of a second-grade fluid
publisher Hindawi Limited
series Mathematical Problems in Engineering
issn 1563-5147
publishDate 2021-01-01
description The present study delivers the mathematical model and theoretical analysis of a three-dimensional flow in a free convection for an electrically conducting incompressible second-grade fluid through a very high porous medium circumscribed by an infinite vertical porous plate subject to a constant suction. A uniform magnetic field along the normal to the surface of plate is applied. Periodic permeability for the medium is assumed, while velocity of free stream is taken to be uniform. Analytic expressions are presented for velocity and temperature fields, pressure, and skin friction components by perturbation technique. The impacts on these physical quantities by the physical parameters existing in the model are discussed and envisioned graphically. It is interesting to note that elastic and permeability parameters are able to control the skin friction along the main flow direction, magnetic field to reduce the pressure, and Reynolds number to control the thermal boundary layer thickness. It is also noted that temperature distribution does not depend upon permeability parameter.
url http://dx.doi.org/10.1155/2021/2501842
work_keys_str_mv AT atifalatif mhdthreedimensionalfreeconvectiveflowwithperiodicpermeabilityandheattransferofasecondgradefluid
AT muhammadafzalrana mhdthreedimensionalfreeconvectiveflowwithperiodicpermeabilityandheattransferofasecondgradefluid
AT babarahmad mhdthreedimensionalfreeconvectiveflowwithperiodicpermeabilityandheattransferofasecondgradefluid
AT muhammadhussan mhdthreedimensionalfreeconvectiveflowwithperiodicpermeabilityandheattransferofasecondgradefluid
_version_ 1714842392431951872

Similar Items