Heat transfer analysis on magneto-ternary nanofluid flow in a porous medium over a moving surface

Researchers have become attracted with ternary hybrid nanoparticles because of its effectiveness in enhancing heat transfer and have gone on to further analyze the working fluid. This study is focusing on magneto-ternary nanofluid flow in a porous medium over a moving plate with Joule heating. The c...

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Main Authors: Anuar, N. S., Hussain, B. N., Asuki, N. A. M., Bachok, N.
Format: Article
Published: Lviv Polytechnic National University 2023
Online Access:http://psasir.upm.edu.my/id/eprint/108161/
https://science.lpnu.ua/mmc/all-volumes-and-issues/volume-10-number-4-2023
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Institution: Universiti Putra Malaysia
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spelling my.upm.eprints.1081612024-09-10T06:40:31Z http://psasir.upm.edu.my/id/eprint/108161/ Heat transfer analysis on magneto-ternary nanofluid flow in a porous medium over a moving surface Anuar, N. S. Hussain, B. N. Asuki, N. A. M. Bachok, N. Researchers have become attracted with ternary hybrid nanoparticles because of its effectiveness in enhancing heat transfer and have gone on to further analyze the working fluid. This study is focusing on magneto-ternary nanofluid flow in a porous medium over a moving plate with Joule heating. The combination of TiO2, SiO2, and Al2O3 with water, H2O, as the based fluid is used for the analysis. Using similarity transformation, the complexity of partial differential equations (PDEs) is reduced into ordinary differential equation (ODE) systems, which are then numerically solved in MATLAB using the bvp4c function for various values of the governing parameters. The impacts of different dimensionless physical parameters on velocity, temperature as well as skin friction coefficient and local Nusselt number are reported in the form of graphs. Two solutions are achieved when the plate and free-stream are moving along mutually opposite directions. Further, local Nusselt number increases with permeability parameter and suction parameter. Also, increments in permeability parameter and the suction parameter lead to the delay in the boundary layer separation. Furthermore, by combining TiO2 with a volume percentage of SiO2-Al2O3/H2O, the heat transfer is enhanced. With an increase in nanoparticle volume fraction, the similarity solutions to exist decrease. Lviv Polytechnic National University 2023 Article PeerReviewed Anuar, N. S. and Hussain, B. N. and Asuki, N. A. M. and Bachok, N. (2023) Heat transfer analysis on magneto-ternary nanofluid flow in a porous medium over a moving surface. Mathematical Modeling and Computing, 10 (4). 1250 -1259. ISSN 2312-9794; ESSN: 2415-3788 https://science.lpnu.ua/mmc/all-volumes-and-issues/volume-10-number-4-2023
institution Universiti Putra Malaysia
building UPM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Putra Malaysia
content_source UPM Institutional Repository
url_provider http://psasir.upm.edu.my/
description Researchers have become attracted with ternary hybrid nanoparticles because of its effectiveness in enhancing heat transfer and have gone on to further analyze the working fluid. This study is focusing on magneto-ternary nanofluid flow in a porous medium over a moving plate with Joule heating. The combination of TiO2, SiO2, and Al2O3 with water, H2O, as the based fluid is used for the analysis. Using similarity transformation, the complexity of partial differential equations (PDEs) is reduced into ordinary differential equation (ODE) systems, which are then numerically solved in MATLAB using the bvp4c function for various values of the governing parameters. The impacts of different dimensionless physical parameters on velocity, temperature as well as skin friction coefficient and local Nusselt number are reported in the form of graphs. Two solutions are achieved when the plate and free-stream are moving along mutually opposite directions. Further, local Nusselt number increases with permeability parameter and suction parameter. Also, increments in permeability parameter and the suction parameter lead to the delay in the boundary layer separation. Furthermore, by combining TiO2 with a volume percentage of SiO2-Al2O3/H2O, the heat transfer is enhanced. With an increase in nanoparticle volume fraction, the similarity solutions to exist decrease.
format Article
author Anuar, N. S.
Hussain, B. N.
Asuki, N. A. M.
Bachok, N.
spellingShingle Anuar, N. S.
Hussain, B. N.
Asuki, N. A. M.
Bachok, N.
Heat transfer analysis on magneto-ternary nanofluid flow in a porous medium over a moving surface
author_facet Anuar, N. S.
Hussain, B. N.
Asuki, N. A. M.
Bachok, N.
author_sort Anuar, N. S.
title Heat transfer analysis on magneto-ternary nanofluid flow in a porous medium over a moving surface
title_short Heat transfer analysis on magneto-ternary nanofluid flow in a porous medium over a moving surface
title_full Heat transfer analysis on magneto-ternary nanofluid flow in a porous medium over a moving surface
title_fullStr Heat transfer analysis on magneto-ternary nanofluid flow in a porous medium over a moving surface
title_full_unstemmed Heat transfer analysis on magneto-ternary nanofluid flow in a porous medium over a moving surface
title_sort heat transfer analysis on magneto-ternary nanofluid flow in a porous medium over a moving surface
publisher Lviv Polytechnic National University
publishDate 2023
url http://psasir.upm.edu.my/id/eprint/108161/
https://science.lpnu.ua/mmc/all-volumes-and-issues/volume-10-number-4-2023
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