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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Radiation Effect on Heat and Mass Transfer by Natural Convection from a Horizontal Surface Embedded in a Porous Medium
TL;DR: In this paper, the authors studied the heat and mass transfer characteristics of natural convection from a horizontal surface embedded in a radiating fluid saturated porous medium using an integral approach of Von Karman type.
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Inferring optimal proportion for efficient heat transfer and depleted entropy using MgO-Ag/water hybrid nanofluid over convectively heated stretching sheet embedded in a porous medium
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Unsteady mixed convection flow of variable viscosity nanofluid in a micro-channel filled with a porous medium
TL;DR: In this paper, the authors analyzed the hydrodynamic and thermal behaviors of a mixed convection flow of nanofluid in a micro-channel filed with a saturated porous medium and solved the highly nonlinear governing partial differential equations corresponding to the momentum, energy and concentration profiles.
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Mixed Convection Heat Transfer around a Tandem Circular Cylinders in Incompressible Downward Flow
TL;DR: In this paper, the authors numerically examined the mixed convective flow around a confined tandem heated circular cylinders embedded in a vertical channel in order to determine exactly the effects of opposing thermal buoyancy and distance between cylinders (S) on the behavior of fluid flow and heat transfer rate.
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Effect of Inclined Magnetic Field and Heat Transfer in a Walter’s B Fluid over a Stretching Sheet with Elastic Deformation
TL;DR: In this article, the authors considered the combined effects of aligned magnetic field and viscous dissipation to regulate the heat transfer in a Walter's liquid B fluid through a stretching sheet subject to elastic deformation.