Optimization of entropy generation in flow of micropolar mixed convective magnetite (Fe3O4) ferroparticle over a vertical plate
In this article, a comprehensive analysis is performed for the micropolar magnetite-Fe3O4 Ferro-liquid from a vertical plate using the mixed convective flow. An entropy analysis is executed to determine the disorder of the magnetite particles and micropolar fluid. To analyze the buoyancy effects, re...
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Format: | Article |
Language: | English |
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Elsevier
2019-12-01
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Series: | Alexandria Engineering Journal |
Online Access: | http://www.sciencedirect.com/science/article/pii/S1110016819301401 |
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doaj-152ea39ae6cc4335b6a876499a7e106b |
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record_format |
Article |
collection |
DOAJ |
language |
English |
format |
Article |
sources |
DOAJ |
author |
A. Zaib Umair Khan Zahir Shah Poom Kumam Phatiphat Thounthong |
spellingShingle |
A. Zaib Umair Khan Zahir Shah Poom Kumam Phatiphat Thounthong Optimization of entropy generation in flow of micropolar mixed convective magnetite (Fe3O4) ferroparticle over a vertical plate Alexandria Engineering Journal |
author_facet |
A. Zaib Umair Khan Zahir Shah Poom Kumam Phatiphat Thounthong |
author_sort |
A. Zaib |
title |
Optimization of entropy generation in flow of micropolar mixed convective magnetite (Fe3O4) ferroparticle over a vertical plate |
title_short |
Optimization of entropy generation in flow of micropolar mixed convective magnetite (Fe3O4) ferroparticle over a vertical plate |
title_full |
Optimization of entropy generation in flow of micropolar mixed convective magnetite (Fe3O4) ferroparticle over a vertical plate |
title_fullStr |
Optimization of entropy generation in flow of micropolar mixed convective magnetite (Fe3O4) ferroparticle over a vertical plate |
title_full_unstemmed |
Optimization of entropy generation in flow of micropolar mixed convective magnetite (Fe3O4) ferroparticle over a vertical plate |
title_sort |
optimization of entropy generation in flow of micropolar mixed convective magnetite (fe3o4) ferroparticle over a vertical plate |
publisher |
Elsevier |
series |
Alexandria Engineering Journal |
issn |
1110-0168 |
publishDate |
2019-12-01 |
description |
In this article, a comprehensive analysis is performed for the micropolar magnetite-Fe3O4 Ferro-liquid from a vertical plate using the mixed convective flow. An entropy analysis is executed to determine the disorder of the magnetite particles and micropolar fluid. To analyze the buoyancy effects, results are confined for opposing and assisting flows. A mathematical model is constructed, that is based upon the micro rotation vector, momentum equation and energy equations. Entropy generation process and all related effects are also considered for said model. By using the similarity transformation, obtained PDE’s transmuted into the system of nonlinear ODE’s and then numerical simulation is performed by Keller box technique. Results of concerned influential parameters on temperature, velocity, microrotation velocity within the domain of the constraint are demonstrated through graphs. In order to check the performance of heat transfer and flow behavior at the plate, the coefficient of the skin friction and the Nusselt number are also analyzed. Results reveal that the multiple results are attained in the “opposing flow” while the single result is appearing in the “assisting flow”. Moreover, the ferroparticle volume fraction accelerates the boundary-layer separation, while the micropolar parameter delays the boundary-layer separation. Keywords: Micropolar fluid, Mixed convection, Entropy generation, Magnetite-Fe3O4, Keller-box technique |
url |
http://www.sciencedirect.com/science/article/pii/S1110016819301401 |
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doaj-152ea39ae6cc4335b6a876499a7e106b2021-06-02T06:48:50ZengElsevierAlexandria Engineering Journal1110-01682019-12-0158414611470Optimization of entropy generation in flow of micropolar mixed convective magnetite (Fe3O4) ferroparticle over a vertical plateA. Zaib0Umair Khan1Zahir Shah2Poom Kumam3Phatiphat Thounthong4Department of Mathematical Sciences, Federal Urdu University of Arts, Science & Technology, Gulshan-e-Iqbal Karachi 75300, PakistanDepartment of Mathematics and Social Sciences, Sukkur IBA University, Sukkur 65200, Sindh PakistanCenter of Excellence in Theoretical and Computational Science (TaCS-CoE), SCL 802 Fixed Point Laboratory, Science Laboratory Building, King Mongkut’s University of Technology Thonburi (KMUTT), 126 Pracha-Uthit Road, Bang Mod, Thrung Khru, Bangkok 10140, Thailand; Corresponding authors at: Center of Excellence in Theoretical and Computational Science (TaCS-CoE), SCL 802 Fixed Point Laboratory, Science Laboratory Building, King Mongkut’s University of Technology Thonburi (KMUTT), 126 Pracha-Uthit Road, Bang Mod, Thrung Khru, Bangkok 10140, Thailand (Z. Shah) and KMUTT Fixed Point Research Laboratory, Room SCL 802 Fixed Point Laboratory, Science Laboratory Building, Department of Mathematics, Faculty of Science, King Mongkut’s University of Technology Thonburi (KMUTT), 126 Pracha-Uthit Road, Bang Mod, Thrung Khru, Bangkok 10140, Thailand (P. Kumam).KMUTTFixed Point Research Laboratory, Room SCL 802 Fixed Point Laboratory, Science Laboratory Building, Department of Mathematics, Faculty of Science, King Mongkut’s University of Technology Thonburi (KMUTT), 126 Pracha-Uthit Road, Bang Mod, Thrung Khru, Bangkok 10140, Thailand; KMUTT-Fixed Point Theory and Applications Research Group, Theoretical and Computational Science Center (TaCS), Science Laboratory Building, Faculty of Science, King Mongkut’s University of Technology Thonburi (KMUTT), 126 Pracha-Uthit Road, Bang Mod, Thrung Khru, Bangkok 10140, Thailand; Department of Medical Research, China Medical University Hospital, China Medical University, Taichung 40402, Taiwan; Corresponding authors at: Center of Excellence in Theoretical and Computational Science (TaCS-CoE), SCL 802 Fixed Point Laboratory, Science Laboratory Building, King Mongkut’s University of Technology Thonburi (KMUTT), 126 Pracha-Uthit Road, Bang Mod, Thrung Khru, Bangkok 10140, Thailand (Z. Shah) and KMUTT Fixed Point Research Laboratory, Room SCL 802 Fixed Point Laboratory, Science Laboratory Building, Department of Mathematics, Faculty of Science, King Mongkut’s University of Technology Thonburi (KMUTT), 126 Pracha-Uthit Road, Bang Mod, Thrung Khru, Bangkok 10140, Thailand (P. Kumam).Renewable Energy Research Centre, Department of Teacher Training in Electrical Engineering, Faculty of Technical Education, King Mongkut’s University of Technology North Bangkok, 1518 Pracharat 1 Road, Bangsue, Bangkok 10800 ThailandIn this article, a comprehensive analysis is performed for the micropolar magnetite-Fe3O4 Ferro-liquid from a vertical plate using the mixed convective flow. An entropy analysis is executed to determine the disorder of the magnetite particles and micropolar fluid. To analyze the buoyancy effects, results are confined for opposing and assisting flows. A mathematical model is constructed, that is based upon the micro rotation vector, momentum equation and energy equations. Entropy generation process and all related effects are also considered for said model. By using the similarity transformation, obtained PDE’s transmuted into the system of nonlinear ODE’s and then numerical simulation is performed by Keller box technique. Results of concerned influential parameters on temperature, velocity, microrotation velocity within the domain of the constraint are demonstrated through graphs. In order to check the performance of heat transfer and flow behavior at the plate, the coefficient of the skin friction and the Nusselt number are also analyzed. Results reveal that the multiple results are attained in the “opposing flow” while the single result is appearing in the “assisting flow”. Moreover, the ferroparticle volume fraction accelerates the boundary-layer separation, while the micropolar parameter delays the boundary-layer separation. Keywords: Micropolar fluid, Mixed convection, Entropy generation, Magnetite-Fe3O4, Keller-box techniquehttp://www.sciencedirect.com/science/article/pii/S1110016819301401 |