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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Numerical investigation of CO2 emission and thermal stability of a convective and radiative stockpile of reactive material in a cylindrical pipe
TL;DR: In this article, the combined effects of emission of CO2 and O2 depletion on thermal stability in a long cylindrical pipe of combustible reactive material were investigated, and the nonlinear differential equations governing the heat and mass transfer problem were tackled numerically using Runge-Kutta-Fehlberg method coupled with shooting technique.
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Thermodynamic Analysis of Variable Viscosity MHD Unsteady Generalized Couette Flow with Permeable Walls
TL;DR: In this paper, the thermodynamic first and second law analyses of a temperature dependent viscosity hydromagnetic generalized unsteady Couette flow with permeable walls are investigated.
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Thermophoresis and Brownian Motion Effects on Magnetohydrodynamics Electro-Osmotic Jeffrey Nanofluid Peristaltic Flow in Asymmetric Rotating Microchannel
TL;DR: In this paper, Reddy et al. investigated the effects of Brownian motion effects on magnetohydrodynamics and peristaltic flow in Asymmetric Rotating Microchannel Journal of Nanofluids.
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Influence of Heat Generation and Viscous Dissipation on Hydromagnetic Fully Developed Natural Convection Flow in a Vertical Micro-Channel
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MHD Mixed Convective Flow of Casson Nanofluid over a Slender Rotating Disk with Source/Sink and Partial Slip Effects
TL;DR: In this article, the axisymmetric mixed convective magnetohydrodynamic (MHD) flow of a Casson nanofluid over a stretching variable thickened rotating disk in the presence of heat source/sink and velocity slip surface boundary condition is investigated.