Radiative mixed convective flow induced by hybrid nanofluid over a porous vertical cylinder in a porous media with irregular heat sink/source

Radiative mixed convective flow induced by hybrid nanofluid over a porous vertical cylinder in a porous media with irregular heat sink/source

Purpose: Hybrid nanofluids have higher mechanical resistance, thermal conductivity, chemical stability, and physical strength when compared to normal nanofluids. Our approach in the current paper is to present a novel exploration comprising radiative mixed convection flow of hybrid nanofluids with i...

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Main Authors: Chu, Yuming, Khan, Umair, Ishak, Anuar, Zaib, Aurang, Sherif, El-Sayed M., Waini, Iskandar, Pop, Ioan
Format: Article
Language:English
Published: Elsevier Ltd 2021
Online Access:http://eprints.utem.edu.my/id/eprint/26344/2/KHAN2022%20CSITE.PDF
http://eprints.utem.edu.my/id/eprint/26344/
https://www.sciencedirect.com/science/article/pii/S2214157X21008741
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Institution: Universiti Teknikal Malaysia Melaka
Language: English
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spelling my.utem.eprints.263442023-03-03T16:32:41Z http://eprints.utem.edu.my/id/eprint/26344/ Radiative mixed convective flow induced by hybrid nanofluid over a porous vertical cylinder in a porous media with irregular heat sink/source Chu, Yuming Khan, Umair Ishak, Anuar Zaib, Aurang Sherif, El-Sayed M. Waini, Iskandar Pop, Ioan Purpose: Hybrid nanofluids have higher mechanical resistance, thermal conductivity, chemical stability, and physical strength when compared to normal nanofluids. Our approach in the current paper is to present a novel exploration comprising radiative mixed convection flow of hybrid nanofluids with irregular heat source/sink effect through a porous vertical cylinder immersed in a porous media. Both opposing and assisting flows are discussed. Methodology: The transmuted similarity ODEs are numerically worked out utilizing the assist of the bvp4c package in MATLAB for different values of physical parameters. The hybrid nanofluids contain a couple of nanoparticles namely aluminum and copper particles with water as base fluid. Findings: It was observed that fundamental similarity equations disclose double solutions (first and second branches) for buoyancy assisting and opposing flows. The drag force is enhanced due to the radiation as well as curvature parameters. In addition, the velocity declines due to heat source/sink and radiation parameter. Originality/value: The writers agree that all numerical outcomes are novel and have not previously been published for the current problem. Elsevier Ltd 2021-12 Article PeerReviewed text en http://eprints.utem.edu.my/id/eprint/26344/2/KHAN2022%20CSITE.PDF Chu, Yuming and Khan, Umair and Ishak, Anuar and Zaib, Aurang and Sherif, El-Sayed M. and Waini, Iskandar and Pop, Ioan (2021) Radiative mixed convective flow induced by hybrid nanofluid over a porous vertical cylinder in a porous media with irregular heat sink/source. Case Studies in Thermal Engineering, 30. 01-14. ISSN 2214-157X https://www.sciencedirect.com/science/article/pii/S2214157X21008741 10.1016/j.csite.2021.101711
institution Universiti Teknikal Malaysia Melaka
building UTEM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Teknikal Malaysia Melaka
content_source UTEM Institutional Repository
url_provider http://eprints.utem.edu.my/
language English
description Purpose: Hybrid nanofluids have higher mechanical resistance, thermal conductivity, chemical stability, and physical strength when compared to normal nanofluids. Our approach in the current paper is to present a novel exploration comprising radiative mixed convection flow of hybrid nanofluids with irregular heat source/sink effect through a porous vertical cylinder immersed in a porous media. Both opposing and assisting flows are discussed. Methodology: The transmuted similarity ODEs are numerically worked out utilizing the assist of the bvp4c package in MATLAB for different values of physical parameters. The hybrid nanofluids contain a couple of nanoparticles namely aluminum and copper particles with water as base fluid. Findings: It was observed that fundamental similarity equations disclose double solutions (first and second branches) for buoyancy assisting and opposing flows. The drag force is enhanced due to the radiation as well as curvature parameters. In addition, the velocity declines due to heat source/sink and radiation parameter. Originality/value: The writers agree that all numerical outcomes are novel and have not previously been published for the current problem.
format Article
author Chu, Yuming
Khan, Umair
Ishak, Anuar
Zaib, Aurang
Sherif, El-Sayed M.
Waini, Iskandar
Pop, Ioan
spellingShingle Chu, Yuming
Khan, Umair
Ishak, Anuar
Zaib, Aurang
Sherif, El-Sayed M.
Waini, Iskandar
Pop, Ioan
Radiative mixed convective flow induced by hybrid nanofluid over a porous vertical cylinder in a porous media with irregular heat sink/source
author_facet Chu, Yuming
Khan, Umair
Ishak, Anuar
Zaib, Aurang
Sherif, El-Sayed M.
Waini, Iskandar
Pop, Ioan
author_sort Chu, Yuming
title Radiative mixed convective flow induced by hybrid nanofluid over a porous vertical cylinder in a porous media with irregular heat sink/source
title_short Radiative mixed convective flow induced by hybrid nanofluid over a porous vertical cylinder in a porous media with irregular heat sink/source
title_full Radiative mixed convective flow induced by hybrid nanofluid over a porous vertical cylinder in a porous media with irregular heat sink/source
title_fullStr Radiative mixed convective flow induced by hybrid nanofluid over a porous vertical cylinder in a porous media with irregular heat sink/source
title_full_unstemmed Radiative mixed convective flow induced by hybrid nanofluid over a porous vertical cylinder in a porous media with irregular heat sink/source
title_sort radiative mixed convective flow induced by hybrid nanofluid over a porous vertical cylinder in a porous media with irregular heat sink/source
publisher Elsevier Ltd
publishDate 2021
url http://eprints.utem.edu.my/id/eprint/26344/2/KHAN2022%20CSITE.PDF
http://eprints.utem.edu.my/id/eprint/26344/
https://www.sciencedirect.com/science/article/pii/S2214157X21008741
_version_ 1759693067101667328

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