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Mixed convection of ferrohydrodynamics magnetized hybrid ferrofluid on a slip-permeable stretching sheet

Mixed convection significantly affects fluid flow and heat transfer in manufacturing and engineering. This study investigates it in a ferrohydrodynamics magnetized hybrid ferrofluid on a slip stretching sheet affected by suction and injection. Using the modified Tiwari and Das model, the behavior of...

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Main Authors: Kamis, Nur Ilyana, Lim, Yeou Jiann, Rawi, Noraihan Afiqah, Shafie, Sharidan
Format: Article
Language:English
Published: Taylor & Francis Group 2024
Subjects:
QA Mathematics
Online Access:http://eprints.utm.my/108941/1/NoraihanAfiqah2024_MixedConvectionofFerrohydrodynamicsMagnetized.pdf
http://eprints.utm.my/108941/
http://dx.doi.org/10.1080/16583655.2024.2347057
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spelling my.utm.1089412024-12-16T00:35:42Z http://eprints.utm.my/108941/ Mixed convection of ferrohydrodynamics magnetized hybrid ferrofluid on a slip-permeable stretching sheet Kamis, Nur Ilyana Lim, Yeou Jiann Rawi, Noraihan Afiqah Shafie, Sharidan QA Mathematics Mixed convection significantly affects fluid flow and heat transfer in manufacturing and engineering. This study investigates it in a ferrohydrodynamics magnetized hybrid ferrofluid on a slip stretching sheet affected by suction and injection. Using the modified Tiwari and Das model, the behavior of the hybrid ferrofluid, magnetite ferrite (Formula presented.) and cobalt ferrite (Formula presented.) based-water and ethylene glycol are explored. The governing partial differential equations are simplified via a similarity technique and solved using the Keller box method. Forced convection reduces velocity profile and shear stress more rapidly than mixed and natural convection, exhibiting distinct thermal field and Nusselt number patterns. Injection increases shear stress by 71.98%, 83%, and 87.08% under forced, mixed, and natural convection, while suction raises it by 25.96%, 28.50%, and 28.53%, respectively. Under suction, natural convection drop by 5.12% Nusselt number, slightly less than forced (5.36%) and mixed convection (5.15%). Ferrohydrodynamics significantly influences flow and heat transfer. Taylor & Francis Group 2024 Article PeerReviewed application/pdf en http://eprints.utm.my/108941/1/NoraihanAfiqah2024_MixedConvectionofFerrohydrodynamicsMagnetized.pdf Kamis, Nur Ilyana and Lim, Yeou Jiann and Rawi, Noraihan Afiqah and Shafie, Sharidan (2024) Mixed convection of ferrohydrodynamics magnetized hybrid ferrofluid on a slip-permeable stretching sheet. Journal of Taibah University for Science, 18 (1). pp. 1-16. ISSN 1658-3655 http://dx.doi.org/10.1080/16583655.2024.2347057 DOI:10.1080/16583655.2024.2347057
institution Universiti Teknologi Malaysia
building UTM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Teknologi Malaysia
content_source UTM Institutional Repository
url_provider http://eprints.utm.my/
language English
topic QA Mathematics
spellingShingle QA Mathematics
Kamis, Nur Ilyana
Lim, Yeou Jiann
Rawi, Noraihan Afiqah
Shafie, Sharidan
Mixed convection of ferrohydrodynamics magnetized hybrid ferrofluid on a slip-permeable stretching sheet
description Mixed convection significantly affects fluid flow and heat transfer in manufacturing and engineering. This study investigates it in a ferrohydrodynamics magnetized hybrid ferrofluid on a slip stretching sheet affected by suction and injection. Using the modified Tiwari and Das model, the behavior of the hybrid ferrofluid, magnetite ferrite (Formula presented.) and cobalt ferrite (Formula presented.) based-water and ethylene glycol are explored. The governing partial differential equations are simplified via a similarity technique and solved using the Keller box method. Forced convection reduces velocity profile and shear stress more rapidly than mixed and natural convection, exhibiting distinct thermal field and Nusselt number patterns. Injection increases shear stress by 71.98%, 83%, and 87.08% under forced, mixed, and natural convection, while suction raises it by 25.96%, 28.50%, and 28.53%, respectively. Under suction, natural convection drop by 5.12% Nusselt number, slightly less than forced (5.36%) and mixed convection (5.15%). Ferrohydrodynamics significantly influences flow and heat transfer.
format Article
author Kamis, Nur Ilyana
Lim, Yeou Jiann
Rawi, Noraihan Afiqah
Shafie, Sharidan
author_facet Kamis, Nur Ilyana
Lim, Yeou Jiann
Rawi, Noraihan Afiqah
Shafie, Sharidan
author_sort Kamis, Nur Ilyana
title Mixed convection of ferrohydrodynamics magnetized hybrid ferrofluid on a slip-permeable stretching sheet
title_short Mixed convection of ferrohydrodynamics magnetized hybrid ferrofluid on a slip-permeable stretching sheet
title_full Mixed convection of ferrohydrodynamics magnetized hybrid ferrofluid on a slip-permeable stretching sheet
title_fullStr Mixed convection of ferrohydrodynamics magnetized hybrid ferrofluid on a slip-permeable stretching sheet
title_full_unstemmed Mixed convection of ferrohydrodynamics magnetized hybrid ferrofluid on a slip-permeable stretching sheet
title_sort mixed convection of ferrohydrodynamics magnetized hybrid ferrofluid on a slip-permeable stretching sheet
publisher Taylor & Francis Group
publishDate 2024
url http://eprints.utm.my/108941/1/NoraihanAfiqah2024_MixedConvectionofFerrohydrodynamicsMagnetized.pdf
http://eprints.utm.my/108941/
http://dx.doi.org/10.1080/16583655.2024.2347057
_version_ 1818834069224423424
score 13.244413

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