S
S. M. Arifuzzaman
Researcher at University of Sydney
Publications - 49
Citations - 697
S. M. Arifuzzaman is an academic researcher from University of Sydney. The author has contributed to research in topics: Nanofluid & Streamlines, streaklines, and pathlines. The author has an hindex of 10, co-authored 41 publications receiving 327 citations. Previous affiliations of S. M. Arifuzzaman include Gono University & East West University.
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Explicit finite difference analysis of an unsteady MHD flow of a chemically reacting Casson fluid past a stretching sheet with Brownian motion and thermophoresis effects
TL;DR: In this paper, the authors elaborate the heat and mass transfer analysis of Casson nanofluid flow past a stretching sheet together with magnetohydrodynamics (MHD), thermal radiation and chemical reaction effects.
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Chemically reactive and naturally convective high speed MHD fluid flow through an oscillatory vertical porous plate with heat and radiation absorption effect
TL;DR: In this article, an unsteady natural convective and higher order chemically reactive magnetohydrodynamics (MHD) fluid flow with the effect of heat and radiation absorption was modeled using a vertical oscillating porous plate.
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Hydrodynamic stability and heat and mass transfer flow analysis of MHD radiative fourth-grade fluid through porous plate with chemical reaction
S. M. Arifuzzaman,Md. Shakhaoath Khan,Abdullah Al-Mamun,Sk. Reza-E-Rabbi,P. Biswas,Ifsana Karim +5 more
TL;DR: In this paper, the heat and mass transfer characteristics of naturally convective hydromagnetic flow of fourth-grade radiative fluid resulting from vertical porous plate are analyzed, where coupled fundamental equations are transformed into a dimensionless arrangement by implementing finite difference scheme explicitly.
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Computational modelling of multiphase fluid flow behaviour over a stretching sheet in the presence of nanoparticles
TL;DR: In this article, the authors analyzed hydrodynamic flow behavior of multiphase radiative Casson and Maxwell fluids with the appearance of nano-sized particles and found that the thermal and mass properties significantly improved mostly in the case of Maxwell fluid.
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Swimming of microbes in blood flow of nano-bioconvective Williamson fluid
B.M.J. Rana,S. M. Arifuzzaman,Saiful Islam,Sk. Reza-E-Rabbi,Abdullah Al-Mamun,Malati Mazumder,Kanak Chandra Roy,Md. Shakhaoath Khan +7 more
TL;DR: In this article, a finite-difference computational approach is used to evaluate the mathematical model followed by a stability and convergence analysis, and the nanofluid blood velocity characteristics, temperature, concentration, and microorganisms are discussed following the diagrams.