Nanoparticle shape effects of aligned magnetohydrodynamics mixed convection flow of jeffrey hybrid nanofluid over a stretching vertical plate.
The nanoparticle shape effects of aligned magnetohydrodynamics (MHD) mixed convection flow of Cu-Al2O3/water-EG Jeffrey hybrid nanofluid over a stretching vertical plate are investigated in this study. Five different shapes of nanoparticles which are spherical, cylindrical, blades, bricks, and plate...
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my.utm.1060462024-05-29T06:50:07Z http://eprints.utm.my/106046/ Nanoparticle shape effects of aligned magnetohydrodynamics mixed convection flow of jeffrey hybrid nanofluid over a stretching vertical plate. Awang, Noorehan Ab Raji, Nurul Hidayah Rahim, Anis Athirah Ilias, Mohd. Rijal Shafie, Sharidan Ishak, Siti Shuhada Q Science (General) QA Mathematics The nanoparticle shape effects of aligned magnetohydrodynamics (MHD) mixed convection flow of Cu-Al2O3/water-EG Jeffrey hybrid nanofluid over a stretching vertical plate are investigated in this study. Five different shapes of nanoparticles which are spherical, cylindrical, blades, bricks, and platelets are considered. The governing equations in the form of Partial Differential Equations (PDEs) had been reduced to nonlinear Ordinary Differential Equations (ODEs) by using similarity transformation. The transformed ODEs are tackled numerically by implementing bvp4c solver in MATLAB towards the dimensionless physical parameters which are aligned angle of magnetic field (α), interaction of magnetic field (M), mixed convection (λ), Deborah number (β), volume fraction of nanoparticles (φ), and nanoparticle shape factor (m). The effects of nanoparticle shape and other parameters on fluid velocity, temperature, skin friction coefficient, and Nusselt number are illustrated with graphs and tables. This study discovered that blade-shaped nanoparticles have the greatest skin friction coefficient and Nusselt number compared to all different shapes. While λ, and φ enhance the skin friction coefficient, α, and M increase the Nusselt number. The parameters α, M, λ, and φ reduce the velocity profiles while raising the temperature profiles. Semarak Ilmu Publishing 2023-12 Article PeerReviewed application/pdf en http://eprints.utm.my/106046/1/SharidanShafie2023_NanoparticleShapeEffectofAlignedMagnetohydrodynamics.pdf Awang, Noorehan and Ab Raji, Nurul Hidayah and Rahim, Anis Athirah and Ilias, Mohd. Rijal and Shafie, Sharidan and Ishak, Siti Shuhada (2023) Nanoparticle shape effects of aligned magnetohydrodynamics mixed convection flow of jeffrey hybrid nanofluid over a stretching vertical plate. Journal of Advanced Research in Applied Mechanics, 112 (1). pp. 88-101. ISSN 2289-7895 http://dx.doi.org/10.37934/aram.112.1.88101 DOI: 10.37934/aram.112.1.88101 |
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Q Science (General) QA Mathematics Awang, Noorehan Ab Raji, Nurul Hidayah Rahim, Anis Athirah Ilias, Mohd. Rijal Shafie, Sharidan Ishak, Siti Shuhada Nanoparticle shape effects of aligned magnetohydrodynamics mixed convection flow of jeffrey hybrid nanofluid over a stretching vertical plate. |
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The nanoparticle shape effects of aligned magnetohydrodynamics (MHD) mixed convection flow of Cu-Al2O3/water-EG Jeffrey hybrid nanofluid over a stretching vertical plate are investigated in this study. Five different shapes of nanoparticles which are spherical, cylindrical, blades, bricks, and platelets are considered. The governing equations in the form of Partial Differential Equations (PDEs) had been reduced to nonlinear Ordinary Differential Equations (ODEs) by using similarity transformation. The transformed ODEs are tackled numerically by implementing bvp4c solver in MATLAB towards the dimensionless physical parameters which are aligned angle of magnetic field (α), interaction of magnetic field (M), mixed convection (λ), Deborah number (β), volume fraction of nanoparticles (φ), and nanoparticle shape factor (m). The effects of nanoparticle shape and other parameters on fluid velocity, temperature, skin friction coefficient, and Nusselt number are illustrated with graphs and tables. This study discovered that blade-shaped nanoparticles have the greatest skin friction coefficient and Nusselt number compared to all different shapes. While λ, and φ enhance the skin friction coefficient, α, and M increase the Nusselt number. The parameters α, M, λ, and φ reduce the velocity profiles while raising the temperature profiles. |
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Article |
author |
Awang, Noorehan Ab Raji, Nurul Hidayah Rahim, Anis Athirah Ilias, Mohd. Rijal Shafie, Sharidan Ishak, Siti Shuhada |
author_facet |
Awang, Noorehan Ab Raji, Nurul Hidayah Rahim, Anis Athirah Ilias, Mohd. Rijal Shafie, Sharidan Ishak, Siti Shuhada |
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Awang, Noorehan |
title |
Nanoparticle shape effects of aligned magnetohydrodynamics mixed convection flow of jeffrey hybrid nanofluid over a stretching vertical plate. |
title_short |
Nanoparticle shape effects of aligned magnetohydrodynamics mixed convection flow of jeffrey hybrid nanofluid over a stretching vertical plate. |
title_full |
Nanoparticle shape effects of aligned magnetohydrodynamics mixed convection flow of jeffrey hybrid nanofluid over a stretching vertical plate. |
title_fullStr |
Nanoparticle shape effects of aligned magnetohydrodynamics mixed convection flow of jeffrey hybrid nanofluid over a stretching vertical plate. |
title_full_unstemmed |
Nanoparticle shape effects of aligned magnetohydrodynamics mixed convection flow of jeffrey hybrid nanofluid over a stretching vertical plate. |
title_sort |
nanoparticle shape effects of aligned magnetohydrodynamics mixed convection flow of jeffrey hybrid nanofluid over a stretching vertical plate. |
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Semarak Ilmu Publishing |
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2023 |
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http://eprints.utm.my/106046/1/SharidanShafie2023_NanoparticleShapeEffectofAlignedMagnetohydrodynamics.pdf http://eprints.utm.my/106046/ http://dx.doi.org/10.37934/aram.112.1.88101 |
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