MHD Flow and Heat Transfer of SiC-TiO2/DO Hybrid Nanofluid due to a Permeable Spinning Disk by a Novel Algorithm
This study intends to semi-analytically investigate the steady 3D boundary layer flow of a SiC-TiO2/DO hybrid nanofluid over a porous spinning disk subject to a constant vertical magnetic field. Here, the novel attitude to single-phase hybrid nanofluid model corresponds to considering nanoparticles...
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Shahid Chamran University of Ahvaz
2019-10-01
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doaj-3595c18e8a4b462cbcfb782ad6cf64992020-11-25T01:13:43ZengShahid Chamran University of AhvazJournal of Applied and Computational Mechanics2383-45362383-45362019-10-015597698810.22055/jacm.2019.27997.144914184MHD Flow and Heat Transfer of SiC-TiO2/DO Hybrid Nanofluid due to a Permeable Spinning Disk by a Novel AlgorithmBehnam Fallah0Saeed Dinarvand1Mohammad Eftekhari Yazdi2Mohammadreza Nademi Rostami3Ioan Pop4Department of Mechanical Engineering, Islamic Azad University, Central Tehran Branch, Tehran, IranDepartment of Mechanical Engineering, Islamic Azad University, Central Tehran Branch, Tehran, IranDepartment of Mechanical Engineering, Islamic Azad University, Central Tehran Branch, Tehran, IranDepartment of Mechanical Engineering, Islamic Azad University, Central Tehran Branch, Tehran, IranDepartment of Applied Mathematics, Babeş-Bolyai University, 400084 Cluj-Napoca, RomaniaThis study intends to semi-analytically investigate the steady 3D boundary layer flow of a SiC-TiO2/DO hybrid nanofluid over a porous spinning disk subject to a constant vertical magnetic field. Here, the novel attitude to single-phase hybrid nanofluid model corresponds to considering nanoparticles and base fluid masses to compute solid equivalent volume fraction, solid equivalent density, and also solid equivalent specific heat at constant pressure. The basic PDEs are transformed into dimensionless ODEs using Von Kármán similarity transformations, which are then solved numerically using bvp4c function. Results indicate that mass suction and magnetic field effects diminish all hydrodynamic and thermal boundary layer thicknesses. Finally, a significant report is presented to investigate quantities of engineering interest due to governing parameters’ effects.http://jacm.scu.ac.ir/article_14184_159e90ac08a3a34bc30bed92b9d36e7b.pdf3D boundary layer flowSingle-phase hybrid nanofluidSpinning diskSemi-analytical modelingDiathermic oil |
collection |
DOAJ |
language |
English |
format |
Article |
sources |
DOAJ |
author |
Behnam Fallah Saeed Dinarvand Mohammad Eftekhari Yazdi Mohammadreza Nademi Rostami Ioan Pop |
spellingShingle |
Behnam Fallah Saeed Dinarvand Mohammad Eftekhari Yazdi Mohammadreza Nademi Rostami Ioan Pop MHD Flow and Heat Transfer of SiC-TiO2/DO Hybrid Nanofluid due to a Permeable Spinning Disk by a Novel Algorithm Journal of Applied and Computational Mechanics 3D boundary layer flow Single-phase hybrid nanofluid Spinning disk Semi-analytical modeling Diathermic oil |
author_facet |
Behnam Fallah Saeed Dinarvand Mohammad Eftekhari Yazdi Mohammadreza Nademi Rostami Ioan Pop |
author_sort |
Behnam Fallah |
title |
MHD Flow and Heat Transfer of SiC-TiO2/DO Hybrid Nanofluid due to a Permeable Spinning Disk by a Novel Algorithm |
title_short |
MHD Flow and Heat Transfer of SiC-TiO2/DO Hybrid Nanofluid due to a Permeable Spinning Disk by a Novel Algorithm |
title_full |
MHD Flow and Heat Transfer of SiC-TiO2/DO Hybrid Nanofluid due to a Permeable Spinning Disk by a Novel Algorithm |
title_fullStr |
MHD Flow and Heat Transfer of SiC-TiO2/DO Hybrid Nanofluid due to a Permeable Spinning Disk by a Novel Algorithm |
title_full_unstemmed |
MHD Flow and Heat Transfer of SiC-TiO2/DO Hybrid Nanofluid due to a Permeable Spinning Disk by a Novel Algorithm |
title_sort |
mhd flow and heat transfer of sic-tio2/do hybrid nanofluid due to a permeable spinning disk by a novel algorithm |
publisher |
Shahid Chamran University of Ahvaz |
series |
Journal of Applied and Computational Mechanics |
issn |
2383-4536 2383-4536 |
publishDate |
2019-10-01 |
description |
This study intends to semi-analytically investigate the steady 3D boundary layer flow of a SiC-TiO2/DO hybrid nanofluid over a porous spinning disk subject to a constant vertical magnetic field. Here, the novel attitude to single-phase hybrid nanofluid model corresponds to considering nanoparticles and base fluid masses to compute solid equivalent volume fraction, solid equivalent density, and also solid equivalent specific heat at constant pressure. The basic PDEs are transformed into dimensionless ODEs using Von Kármán similarity transformations, which are then solved numerically using bvp4c function. Results indicate that mass suction and magnetic field effects diminish all hydrodynamic and thermal boundary layer thicknesses. Finally, a significant report is presented to investigate quantities of engineering interest due to governing parameters’ effects. |
topic |
3D boundary layer flow Single-phase hybrid nanofluid Spinning disk Semi-analytical modeling Diathermic oil |
url |
http://jacm.scu.ac.ir/article_14184_159e90ac08a3a34bc30bed92b9d36e7b.pdf |
work_keys_str_mv |
AT behnamfallah mhdflowandheattransferofsictio2dohybridnanofluidduetoapermeablespinningdiskbyanovelalgorithm AT saeeddinarvand mhdflowandheattransferofsictio2dohybridnanofluidduetoapermeablespinningdiskbyanovelalgorithm AT mohammadeftekhariyazdi mhdflowandheattransferofsictio2dohybridnanofluidduetoapermeablespinningdiskbyanovelalgorithm AT mohammadrezanademirostami mhdflowandheattransferofsictio2dohybridnanofluidduetoapermeablespinningdiskbyanovelalgorithm AT ioanpop mhdflowandheattransferofsictio2dohybridnanofluidduetoapermeablespinningdiskbyanovelalgorithm |
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