Cattaneo-Christov model for electrical magnetite micropoler Casson ferrofluid over a stretching/shrinking sheet using effective thermal conductivity model

Nanofluids are the key building block of nanoparticles. So in particular, the researchers got attention in the development of nanotechnology. The knowledge of heat transmission in magnetohydrodynamic nanofluid flows through diverse geometries is significant for heat exchangers design, transpiration,...

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Main Authors: Shah, Z., Dawar, A., Khan, I., Islam, S., Ching, D.L.C., Khan, A.Z.
Format: Article
Published: 2019
Online Access:https://www.scopus.com/inward/record.uri?eid=2-s2.0-85058052236&doi=10.1016%2fj.csite.2018.11.003&partnerID=40&md5=e73bc0e024ea73cdc28d4ead2b7eed14
http://eprints.utp.edu.my/22133/
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spelling my.utp.eprints.221332019-02-28T05:55:32Z Cattaneo-Christov model for electrical magnetite micropoler Casson ferrofluid over a stretching/shrinking sheet using effective thermal conductivity model Shah, Z. Dawar, A. Khan, I. Islam, S. Ching, D.L.C. Khan, A.Z. Nanofluids are the key building block of nanoparticles. So in particular, the researchers got attention in the development of nanotechnology. The knowledge of heat transmission in magnetohydrodynamic nanofluid flows through diverse geometries is significant for heat exchangers design, transpiration, fiber coating, etc. Currently, the nanomaterial's are among the well-known tackles for refining the low thermal conductivity of working liquids. Naturally, magnetite (Fe3O4) nanoparticles move randomly within the base fluid. When transverse magnetic force is applied, the motion of nanofluid becomes uniform. With this instigation, a mathematical model is developed to examine the heat transmission performance of electrically conducting MHD flow of a Casson ferrofluid over a stretching sheet. Moreover, we have considered water as a base fluid in this work. The formulated model has been solved with homotopy analysis method (HAM) by using similarity variables. The impact of embedded parameters on velocity, micro-rotation velocity, and temperature profiles have been shown graphically and discussed in detail. Also the impact of embedded parameters on surface drag force and heat transfer rate have been shown through tables and discussed as well. © 2018 The Authors. 2019 Article NonPeerReviewed https://www.scopus.com/inward/record.uri?eid=2-s2.0-85058052236&doi=10.1016%2fj.csite.2018.11.003&partnerID=40&md5=e73bc0e024ea73cdc28d4ead2b7eed14 Shah, Z. and Dawar, A. and Khan, I. and Islam, S. and Ching, D.L.C. and Khan, A.Z. (2019) Cattaneo-Christov model for electrical magnetite micropoler Casson ferrofluid over a stretching/shrinking sheet using effective thermal conductivity model. Case Studies in Thermal Engineering, 13 . http://eprints.utp.edu.my/22133/
institution Universiti Teknologi Petronas
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country Malaysia
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url_provider http://eprints.utp.edu.my/
description Nanofluids are the key building block of nanoparticles. So in particular, the researchers got attention in the development of nanotechnology. The knowledge of heat transmission in magnetohydrodynamic nanofluid flows through diverse geometries is significant for heat exchangers design, transpiration, fiber coating, etc. Currently, the nanomaterial's are among the well-known tackles for refining the low thermal conductivity of working liquids. Naturally, magnetite (Fe3O4) nanoparticles move randomly within the base fluid. When transverse magnetic force is applied, the motion of nanofluid becomes uniform. With this instigation, a mathematical model is developed to examine the heat transmission performance of electrically conducting MHD flow of a Casson ferrofluid over a stretching sheet. Moreover, we have considered water as a base fluid in this work. The formulated model has been solved with homotopy analysis method (HAM) by using similarity variables. The impact of embedded parameters on velocity, micro-rotation velocity, and temperature profiles have been shown graphically and discussed in detail. Also the impact of embedded parameters on surface drag force and heat transfer rate have been shown through tables and discussed as well. © 2018 The Authors.
format Article
author Shah, Z.
Dawar, A.
Khan, I.
Islam, S.
Ching, D.L.C.
Khan, A.Z.
spellingShingle Shah, Z.
Dawar, A.
Khan, I.
Islam, S.
Ching, D.L.C.
Khan, A.Z.
Cattaneo-Christov model for electrical magnetite micropoler Casson ferrofluid over a stretching/shrinking sheet using effective thermal conductivity model
author_facet Shah, Z.
Dawar, A.
Khan, I.
Islam, S.
Ching, D.L.C.
Khan, A.Z.
author_sort Shah, Z.
title Cattaneo-Christov model for electrical magnetite micropoler Casson ferrofluid over a stretching/shrinking sheet using effective thermal conductivity model
title_short Cattaneo-Christov model for electrical magnetite micropoler Casson ferrofluid over a stretching/shrinking sheet using effective thermal conductivity model
title_full Cattaneo-Christov model for electrical magnetite micropoler Casson ferrofluid over a stretching/shrinking sheet using effective thermal conductivity model
title_fullStr Cattaneo-Christov model for electrical magnetite micropoler Casson ferrofluid over a stretching/shrinking sheet using effective thermal conductivity model
title_full_unstemmed Cattaneo-Christov model for electrical magnetite micropoler Casson ferrofluid over a stretching/shrinking sheet using effective thermal conductivity model
title_sort cattaneo-christov model for electrical magnetite micropoler casson ferrofluid over a stretching/shrinking sheet using effective thermal conductivity model
publishDate 2019
url https://www.scopus.com/inward/record.uri?eid=2-s2.0-85058052236&doi=10.1016%2fj.csite.2018.11.003&partnerID=40&md5=e73bc0e024ea73cdc28d4ead2b7eed14
http://eprints.utp.edu.my/22133/
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