Effects of Thermal Radiation, Heat Generation, and Induced Magnetic Field on Hydromagnetic Free Convection Flow of Couple Stress Fluid in an Isoflux-Isothermal Vertical Channel

Effects of Thermal Radiation, Heat Generation, and Induced Magnetic Field on Hydromagnetic Free Convection Flow of Couple Stress Fluid in an Isoflux-Isothermal Vertical Channel

The study scrutinizes the effects of thermal radiation, heat generation, and induced magnetic field on steady, fully developed hydromagnetic free convection flow of an incompressible viscous and electrically conducting couple stress fluid in a vertical channel. The channel walls are maintained at an...

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Main Authors: Hasan Nihal Zaidi, Mohammed Yousif, S. Nazia Nasreen
Format: Article
Language:English
Published: Hindawi Limited 2020-01-01
Series:Journal of Applied Mathematics
Online Access:http://dx.doi.org/10.1155/2020/4539531
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spelling doaj-d7ec54c5d6f649408d54c69357f679932020-11-25T02:52:20ZengHindawi LimitedJournal of Applied Mathematics1110-757X1687-00422020-01-01202010.1155/2020/45395314539531Effects of Thermal Radiation, Heat Generation, and Induced Magnetic Field on Hydromagnetic Free Convection Flow of Couple Stress Fluid in an Isoflux-Isothermal Vertical ChannelHasan Nihal Zaidi0Mohammed Yousif1S. Nazia Nasreen2Department of Basic Sciences, College of Preparatory Year, University of Hail, Saudi ArabiaDepartment of Basic Sciences, College of Preparatory Year, University of Hail, Saudi ArabiaDepartment of Basic Sciences, College of Preparatory Year, University of Hail, Saudi ArabiaThe study scrutinizes the effects of thermal radiation, heat generation, and induced magnetic field on steady, fully developed hydromagnetic free convection flow of an incompressible viscous and electrically conducting couple stress fluid in a vertical channel. The channel walls are maintained at an isoflux-isothermal condition, such that the left channel wall is maintained at a constant heat flux. In contrast, the right channel wall is maintained at a constant temperature. The governing simultaneous equations are solved analytically utilizing the method of undetermined coefficient, and closed form solutions in dimensionless form have been acquired for the velocity field, the induced magnetic field, and the temperature field. The expression for the induced current density has been also obtained. A parametric study for the velocity, temperature, and induced magnetic field profiles, as well as for the skin-friction coefficient, Nusselt number, and induced current density, is conducted and discussed graphically.http://dx.doi.org/10.1155/2020/4539531
collection DOAJ
language English
format Article
sources DOAJ
author Hasan Nihal Zaidi
Mohammed Yousif
S. Nazia Nasreen
spellingShingle Hasan Nihal Zaidi
Mohammed Yousif
S. Nazia Nasreen
Effects of Thermal Radiation, Heat Generation, and Induced Magnetic Field on Hydromagnetic Free Convection Flow of Couple Stress Fluid in an Isoflux-Isothermal Vertical Channel
Journal of Applied Mathematics
author_facet Hasan Nihal Zaidi
Mohammed Yousif
S. Nazia Nasreen
author_sort Hasan Nihal Zaidi
title Effects of Thermal Radiation, Heat Generation, and Induced Magnetic Field on Hydromagnetic Free Convection Flow of Couple Stress Fluid in an Isoflux-Isothermal Vertical Channel
title_short Effects of Thermal Radiation, Heat Generation, and Induced Magnetic Field on Hydromagnetic Free Convection Flow of Couple Stress Fluid in an Isoflux-Isothermal Vertical Channel
title_full Effects of Thermal Radiation, Heat Generation, and Induced Magnetic Field on Hydromagnetic Free Convection Flow of Couple Stress Fluid in an Isoflux-Isothermal Vertical Channel
title_fullStr Effects of Thermal Radiation, Heat Generation, and Induced Magnetic Field on Hydromagnetic Free Convection Flow of Couple Stress Fluid in an Isoflux-Isothermal Vertical Channel
title_full_unstemmed Effects of Thermal Radiation, Heat Generation, and Induced Magnetic Field on Hydromagnetic Free Convection Flow of Couple Stress Fluid in an Isoflux-Isothermal Vertical Channel
title_sort effects of thermal radiation, heat generation, and induced magnetic field on hydromagnetic free convection flow of couple stress fluid in an isoflux-isothermal vertical channel
publisher Hindawi Limited
series Journal of Applied Mathematics
issn 1110-757X
1687-0042
publishDate 2020-01-01
description The study scrutinizes the effects of thermal radiation, heat generation, and induced magnetic field on steady, fully developed hydromagnetic free convection flow of an incompressible viscous and electrically conducting couple stress fluid in a vertical channel. The channel walls are maintained at an isoflux-isothermal condition, such that the left channel wall is maintained at a constant heat flux. In contrast, the right channel wall is maintained at a constant temperature. The governing simultaneous equations are solved analytically utilizing the method of undetermined coefficient, and closed form solutions in dimensionless form have been acquired for the velocity field, the induced magnetic field, and the temperature field. The expression for the induced current density has been also obtained. A parametric study for the velocity, temperature, and induced magnetic field profiles, as well as for the skin-friction coefficient, Nusselt number, and induced current density, is conducted and discussed graphically.
url http://dx.doi.org/10.1155/2020/4539531
work_keys_str_mv AT hasannihalzaidi effectsofthermalradiationheatgenerationandinducedmagneticfieldonhydromagneticfreeconvectionflowofcouplestressfluidinanisofluxisothermalverticalchannel
AT mohammedyousif effectsofthermalradiationheatgenerationandinducedmagneticfieldonhydromagneticfreeconvectionflowofcouplestressfluidinanisofluxisothermalverticalchannel
AT snazianasreen effectsofthermalradiationheatgenerationandinducedmagneticfieldonhydromagneticfreeconvectionflowofcouplestressfluidinanisofluxisothermalverticalchannel
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