Computational Modelling on MHD Radiative Sisko Nanofluids Flow through a Nonlinearly Stretching Sheet

Al-Mamun, A, Arifuzzaman, S, Reza-E-Rabbi, S, Biswas, P and Khan, M 2019, 'Computational Modelling on MHD Radiative Sisko Nanofluids Flow through a Nonlinearly Stretching Sheet', International Journal of Heat and Technology, vol. 37, no. 1, pp. 285-295.


Document type: Journal Article
Collection: Journal Articles

Title Computational Modelling on MHD Radiative Sisko Nanofluids Flow through a Nonlinearly Stretching Sheet
Author(s) Al-Mamun, A
Arifuzzaman, S
Reza-E-Rabbi, S
Biswas, P
Khan, M
Year 2019
Journal name International Journal of Heat and Technology
Volume number 37
Issue number 1
Start page 285
End page 295
Total pages 11
Publisher International Information and Engineering Technology Association
Abstract The boundary layer phenomena for Sisko-nano fluid flow is being observed with the effect of MHD and thermal radiation on a non-linear stretched surface. For developing a fundamental flow model, a boundary layer approximation is done, which represents time subservient momentum, concentration and energy equations. By taking the assistance of Compaq Visual Fortran, the fundamental equations are analysed by imposing a finite difference scheme explicitly. A stability and convergence study is also exhibited, and the ongoing investigation is found converged for Lewis number, Le >= 0.161 and Prandtl number, Pr >= 0.668. The impression of Sisko fluid parameter (A1, A2) along with diversified appropriate parameters is depicted in various flow fields. However, the developed visualisation of fluid flow is also depicted through streamlines and isotherms.
Subject Computational Fluid Dynamics
Keyword(s) stability and convergence analysis
Sisko nanofluid
higher order chemical reaction
porous plate
MHD
thermal radiation
DOI - identifier 10.18280/ijht.370134
Copyright notice Copyright © 2019 by the authors; licensee IIETA, Edmonton, Canada. This article is an open-access article distributed under the terms and conditions of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/3.0/)
ISSN 0392-8764
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