Mixed bioconvection stagnation point flow towards a vertical plate in alumina-copper/water

Purpose: According to the previous research, bioconvection has been recognized as an important mechanism in current engineering and environmental systems. For example, researchers exploit this mechanism in modern green bioengineering to develop environmentally friendly fuels, fuel cells and photosyn...

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Main Authors: Zainal, Nurul Amira, Nazar, Roslinda, Naganthran, Kohilavani, Pop, Ioan
Format: Article
Language:English
Published: Emerald Publishing Limited 2022
Online Access:http://eprints.utem.edu.my/id/eprint/26199/2/10-1108_HFF-10-2021-0693.PDF
http://eprints.utem.edu.my/id/eprint/26199/
https://www.emerald.com/insight/content/doi/10.1108/HFF-10-2021-0693/full/pdf?title=mixed-bioconvection-stagnation-point-flow-towards-a-vertical-plate-in-alumina-copperwater
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spelling my.utem.eprints.261992023-02-23T11:38:38Z http://eprints.utem.edu.my/id/eprint/26199/ Mixed bioconvection stagnation point flow towards a vertical plate in alumina-copper/water Zainal, Nurul Amira Nazar, Roslinda Naganthran, Kohilavani Pop, Ioan Purpose: According to the previous research, bioconvection has been recognized as an important mechanism in current engineering and environmental systems. For example, researchers exploit this mechanism in modern green bioengineering to develop environmentally friendly fuels, fuel cells and photosynthetic microorganisms. This study aims to analyse how this type of convection affects the flow behaviour and heat transfer performance of mixed convection stagnation point flow in alumina-copper/water hybrid nanofluid. Also, the impact of a modified magnetic field on the boundary layer flow is considered. Design/methodology/approach: By applying appropriate transformations, the multivariable differential equations are transformed into a specific sort of ordinary differential equations. Using the bvp4c procedure, the adjusted mathematical model is revealed. Once sufficient assumptions are provided, multiple solutions are able to be produced. Findings: The skin friction coefficient is declined when the nanoparticle concentration is increased in the opposing flow. In contrast, the inclusion of aligned angles displays an upward trend in heat transfer performance. The presence of several solutions is established, which simply leads to a stability analysis, hence verifies the viability of the initial solution. Originality/value: The current findings are unique and novel for the investigation of mixed bioconvection flow towards a vertical flat plate in a base fluid with the presence of hybrid nanoparticles. Emerald Publishing Limited 2022 Article PeerReviewed text en http://eprints.utem.edu.my/id/eprint/26199/2/10-1108_HFF-10-2021-0693.PDF Zainal, Nurul Amira and Nazar, Roslinda and Naganthran, Kohilavani and Pop, Ioan (2022) Mixed bioconvection stagnation point flow towards a vertical plate in alumina-copper/water. International Journal of Numerical Methods for Heat and Fluid Flow, 32 (11). pp. 3413-3438. ISSN 0961-5539 https://www.emerald.com/insight/content/doi/10.1108/HFF-10-2021-0693/full/pdf?title=mixed-bioconvection-stagnation-point-flow-towards-a-vertical-plate-in-alumina-copperwater 10.1108/HFF-10-2021-0693
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: According to the previous research, bioconvection has been recognized as an important mechanism in current engineering and environmental systems. For example, researchers exploit this mechanism in modern green bioengineering to develop environmentally friendly fuels, fuel cells and photosynthetic microorganisms. This study aims to analyse how this type of convection affects the flow behaviour and heat transfer performance of mixed convection stagnation point flow in alumina-copper/water hybrid nanofluid. Also, the impact of a modified magnetic field on the boundary layer flow is considered. Design/methodology/approach: By applying appropriate transformations, the multivariable differential equations are transformed into a specific sort of ordinary differential equations. Using the bvp4c procedure, the adjusted mathematical model is revealed. Once sufficient assumptions are provided, multiple solutions are able to be produced. Findings: The skin friction coefficient is declined when the nanoparticle concentration is increased in the opposing flow. In contrast, the inclusion of aligned angles displays an upward trend in heat transfer performance. The presence of several solutions is established, which simply leads to a stability analysis, hence verifies the viability of the initial solution. Originality/value: The current findings are unique and novel for the investigation of mixed bioconvection flow towards a vertical flat plate in a base fluid with the presence of hybrid nanoparticles.
format Article
author Zainal, Nurul Amira
Nazar, Roslinda
Naganthran, Kohilavani
Pop, Ioan
spellingShingle Zainal, Nurul Amira
Nazar, Roslinda
Naganthran, Kohilavani
Pop, Ioan
Mixed bioconvection stagnation point flow towards a vertical plate in alumina-copper/water
author_facet Zainal, Nurul Amira
Nazar, Roslinda
Naganthran, Kohilavani
Pop, Ioan
author_sort Zainal, Nurul Amira
title Mixed bioconvection stagnation point flow towards a vertical plate in alumina-copper/water
title_short Mixed bioconvection stagnation point flow towards a vertical plate in alumina-copper/water
title_full Mixed bioconvection stagnation point flow towards a vertical plate in alumina-copper/water
title_fullStr Mixed bioconvection stagnation point flow towards a vertical plate in alumina-copper/water
title_full_unstemmed Mixed bioconvection stagnation point flow towards a vertical plate in alumina-copper/water
title_sort mixed bioconvection stagnation point flow towards a vertical plate in alumina-copper/water
publisher Emerald Publishing Limited
publishDate 2022
url http://eprints.utem.edu.my/id/eprint/26199/2/10-1108_HFF-10-2021-0693.PDF
http://eprints.utem.edu.my/id/eprint/26199/
https://www.emerald.com/insight/content/doi/10.1108/HFF-10-2021-0693/full/pdf?title=mixed-bioconvection-stagnation-point-flow-towards-a-vertical-plate-in-alumina-copperwater
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score 13.214268