O
Oluwole Daniel Makinde
Researcher at Stellenbosch University
Publications - 616
Citations - 17516
Oluwole Daniel Makinde is an academic researcher from Stellenbosch University. The author has contributed to research in topics: Heat transfer & Nanofluid. The author has an hindex of 56, co-authored 576 publications receiving 13757 citations. Previous affiliations of Oluwole Daniel Makinde include Nelson Mandela Metropolitan University & Cape Peninsula University of Technology.
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On MHD boundary‐layer flow and mass transfer past a vertical plate in a porous medium with constant heat flux
TL;DR: In this article, the authors investigated the hydromagnetic mixed convection flow of an incompressible viscous electrically conducting fluid and mass transfer over a vertical porous plate with constant heat flux embedded in a porous medium.
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Effects of viscous dissipation and Newtonian heating on boundary-layer flow of nanofluids over a flat plate
TL;DR: In this article, the combined effects of viscous dissipation and Newtonian heating on boundary-layer flow over a flat plate for three types of water-based nanofluids containing metallic or nonmetallic nanoparticles such as copper (Cu), alumina (Al2O3), and titania (TiO2) for a range of nanoparticle volume fractions were investigated.
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Magnetohydrodynamic three-dimensional flow of nanofluids with slip and thermal radiation over a nonlinear stretching sheet: a numerical study
Basavarajappa Mahanthesh,Basavarajappa Mahanthesh,Bijjanal Jayanna Gireesha,Rama Subba Reddy Gorla,Oluwole Daniel Makinde +4 more
TL;DR: It is found that the velocity and thermal slip boundary condition showed a significant effect on momentum and thermal boundary layer thickness at the wall, and the presence of nanoparticles stabilizes the thermal boundary layers growth.
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MHD transient flows and heat transfer of dusty fluid in a channel with variable physical properties and Navier slip condition
TL;DR: The effect of the wall slip parameter, viscosity and electric conductivity variation and the uniform magnetic field on the velocity and temperature fields for both the fluid and dust particles is discussed.
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Convection from an inverted cone in a porous medium with cross-diffusion effects
TL;DR: In this study convection from an inverted cone in a porous medium with cross-diffusion is studied numerically using a shooting method together with a sixth order Runge-Kutta method to verify the accuracy and correctness of the results.