MHD Free Convective Flow along Vertical Oscillatory Plate with Radiative Heat Transfer in the Presence of Hall Current and Heat Source

MHD Free Convective Flow along Vertical Oscillatory Plate with Radiative Heat Transfer in the Presence of Hall Current and Heat Source

MHD free convective flow with oscillations of an infinite non-conducting vertical flat surface through a porous medium with Hall current in a rotating system was studied. The governing equations of the model were converted into dimensionless form. Analytical solutions for velocity and temperature we...

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Main Authors: Uday Singh Rajput, Mohammad Shareef
Format: Article
Language:English
Published: ITB Journal Publisher 2019-12-01
Series:Journal of Mathematical and Fundamental Sciences
Subjects:
free convection
hall current
heat transfer
mhd
porous medium
Online Access:http://journals.itb.ac.id/index.php/jmfs/article/view/3880
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spelling doaj-d148336ba564448480056b6f9996aa392020-11-25T02:03:46ZengITB Journal PublisherJournal of Mathematical and Fundamental Sciences2337-57602338-55102019-12-0151325226410.5614/j.math.fund.sci.2019.51.3.4MHD Free Convective Flow along Vertical Oscillatory Plate with Radiative Heat Transfer in the Presence of Hall Current and Heat SourceUday Singh Rajput0Mohammad Shareef1Department of Mathematics and Astronomy, University of Lucknow, Lucknow-226007, IndiaDepartment of Mathematics and Astronomy, University of Lucknow, Lucknow-226007, IndiaMHD free convective flow with oscillations of an infinite non-conducting vertical flat surface through a porous medium with Hall current in a rotating system was studied. The governing equations of the model were converted into dimensionless form. Analytical solutions for velocity and temperature were obtained with the help of the Laplace transform method. Graphs and tables are used in this paper to show the influence of various parameters on temperature, skin friction and velocity. It was observed that changes in plate oscillation, porous medium, radiation and Hall current have significant effects on fluid motion. Further, the skin friction near the surface is increased by the radiation parameter. The results obtained have large implications in the engineering and science fields.http://journals.itb.ac.id/index.php/jmfs/article/view/3880free convectionhall currentheat transfermhdporous medium
collection DOAJ
language English
format Article
sources DOAJ
author Uday Singh Rajput
Mohammad Shareef
spellingShingle Uday Singh Rajput
Mohammad Shareef
MHD Free Convective Flow along Vertical Oscillatory Plate with Radiative Heat Transfer in the Presence of Hall Current and Heat Source
Journal of Mathematical and Fundamental Sciences
free convection
hall current
heat transfer
mhd
porous medium
author_facet Uday Singh Rajput
Mohammad Shareef
author_sort Uday Singh Rajput
title MHD Free Convective Flow along Vertical Oscillatory Plate with Radiative Heat Transfer in the Presence of Hall Current and Heat Source
title_short MHD Free Convective Flow along Vertical Oscillatory Plate with Radiative Heat Transfer in the Presence of Hall Current and Heat Source
title_full MHD Free Convective Flow along Vertical Oscillatory Plate with Radiative Heat Transfer in the Presence of Hall Current and Heat Source
title_fullStr MHD Free Convective Flow along Vertical Oscillatory Plate with Radiative Heat Transfer in the Presence of Hall Current and Heat Source
title_full_unstemmed MHD Free Convective Flow along Vertical Oscillatory Plate with Radiative Heat Transfer in the Presence of Hall Current and Heat Source
title_sort mhd free convective flow along vertical oscillatory plate with radiative heat transfer in the presence of hall current and heat source
publisher ITB Journal Publisher
series Journal of Mathematical and Fundamental Sciences
issn 2337-5760
2338-5510
publishDate 2019-12-01
description MHD free convective flow with oscillations of an infinite non-conducting vertical flat surface through a porous medium with Hall current in a rotating system was studied. The governing equations of the model were converted into dimensionless form. Analytical solutions for velocity and temperature were obtained with the help of the Laplace transform method. Graphs and tables are used in this paper to show the influence of various parameters on temperature, skin friction and velocity. It was observed that changes in plate oscillation, porous medium, radiation and Hall current have significant effects on fluid motion. Further, the skin friction near the surface is increased by the radiation parameter. The results obtained have large implications in the engineering and science fields.
topic free convection
hall current
heat transfer
mhd
porous medium
url http://journals.itb.ac.id/index.php/jmfs/article/view/3880
work_keys_str_mv AT udaysinghrajput mhdfreeconvectiveflowalongverticaloscillatoryplatewithradiativeheattransferinthepresenceofhallcurrentandheatsource
AT mohammadshareef mhdfreeconvectiveflowalongverticaloscillatoryplatewithradiativeheattransferinthepresenceofhallcurrentandheatsource
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