Influence of space conjugate temperature varying non-uniform heat sink/source on hydromagnetic slip water-EG (50:50) nanofluid

Significant cooling is an essential requirement in the field of aeronautical and bio-medical engineering, nuclear reactor system, solar collectors, and in development of electronic chips etc. Involving rotating conical geometries. In view of this, flow and heat transfer over conical geometries subje...

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Published inCase studies in thermal engineering Vol. 63; p. 105220
Main Authors Niu, Yaqun, Nayak, M.K., Yashodha, S., Nazari, S., Hakeem, A.K Abdul, Ali, Rifaqat, Abbas, Syed Zaheer, Chamkha, Ali J.
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.11.2024
Elsevier
Subjects
Heat transfer
MHD
Source/sink
Vertical cone
MHD
Vertical cone
Source/sink
Heat transfer
Online AccessGet full text
ISSN2214-157X
2214-157X
DOI10.1016/j.csite.2024.105220

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Abstract Significant cooling is an essential requirement in the field of aeronautical and bio-medical engineering, nuclear reactor system, solar collectors, and in development of electronic chips etc. Involving rotating conical geometries. In view of this, flow and heat transfer over conical geometries subject to different constraints of motion are highly needed. Implementation of magnetic field subject to flow pattern controls the fluid motion thereby imparting better cooling. Consideration of nanofluid instead of regular fluid yields prominent cooling of the associated surface. Such relevance has motivated the authors to work on magnetohydrodynamics and heat transfer investigation of water-EG (50:50) mixture based Al2O3 and Fe3O4 past heated and rotating down-pointing upright cone subject to impact of space and temperature varying non-uniform heat source or sink. Numerical solution of dimensionless governing equations is accomplished by implementing Runge-Kutta method. The findings indicate that swirl and axial velocities peter out with rise in magnetic parameter while both exhibit opposite impact in response to slip parameter. Temperature profiles upgrade due to amplification of space and temperature dependent parameters. Skin friction and heat transportation upsurge with growth of solid volume fraction of nanoparticle.
AbstractList Significant cooling is an essential requirement in the field of aeronautical and bio-medical engineering, nuclear reactor system, solar collectors, and in development of electronic chips etc. Involving rotating conical geometries. In view of this, flow and heat transfer over conical geometries subject to different constraints of motion are highly needed. Implementation of magnetic field subject to flow pattern controls the fluid motion thereby imparting better cooling. Consideration of nanofluid instead of regular fluid yields prominent cooling of the associated surface. Such relevance has motivated the authors to work on magnetohydrodynamics and heat transfer investigation of water-EG (50:50) mixture based Al2O3 and Fe3O4 past heated and rotating down-pointing upright cone subject to impact of space and temperature varying non-uniform heat source or sink. Numerical solution of dimensionless governing equations is accomplished by implementing Runge-Kutta method. The findings indicate that swirl and axial velocities peter out with rise in magnetic parameter while both exhibit opposite impact in response to slip parameter. Temperature profiles upgrade due to amplification of space and temperature dependent parameters. Skin friction and heat transportation upsurge with growth of solid volume fraction of nanoparticle.
ArticleNumber 105220
Author Yashodha, S.
Hakeem, A.K Abdul
Ali, Rifaqat
Niu, Yaqun
Nayak, M.K.
Nazari, S.
Abbas, Syed Zaheer
Chamkha, Ali J.
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  fullname: Chamkha, Ali J.
  organization: Faculty of Engineering, Kuwait College of Science and Technology, Doha District, Kuwait
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Heat transfer
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Snippet Significant cooling is an essential requirement in the field of aeronautical and bio-medical engineering, nuclear reactor system, solar collectors, and in...
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Title Influence of space conjugate temperature varying non-uniform heat sink/source on hydromagnetic slip water-EG (50:50) nanofluid
URI https://dx.doi.org/10.1016/j.csite.2024.105220
https://doi.org/10.1016/j.csite.2024.105220
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