MHD flow properties due to a porous rotating disk in a mixed convective fluid flow with buoyancy and radiation
1 Department of Computer Science/Mathematics, Igbinedion University Okada, Edo State, Nigeria.
2 Department of Mathematics, Delta State Post Primary Education Board, Asaba, Nigeria.
Review Article
Global Journal of Engineering and Technology Advances, 2023, 14(03), 061–075.
Article DOI: 10.30574/gjeta.2023.14.3.0052
Publication history:
Received on 02 February 2023; revised on 12 March 2023; accepted on 15 March 2023
Abstract:
The importance and differs applications of Magnetohydrodynamics, MHD and mixed convective flow through a porous medium has led to investigation of buoyancy force and thermal radiation on the flow. The modeled ordinary differential equations were transformed by means of similarity transformation into partial differential equations. The resulting equations were solved using Nachtsheim–Swigert iteration technique. The obtained results were conformed to existing ones, and displayed on tables and through graphs. In conclusion the investigated parameters have significant effects on the flow. Close to the boundary positive values of y is found to give rise to the familiar inflection point profile leading to the destabilization of the laminar flow. Strong injection also leads to the similar destabilization effect. Also, hall parameter m has an interesting effect on the radial and axial velocity profiles. For large values of m(>2.0), the resistive effects of the magnetic field are diminished and hence the radial and axial velocity profiles decrease with the increase of m, among others.
Keywords:
MHD Flow; Porous Medium; Rotating Disk; Mixed Convective Flow; Buoyancy; Radiation
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