Uniform magnetic field impact on absolute versus convective onset of Darcy–Benard convection with horizontal throughflow

Abstract: Purpose The onset of Darcy–Benard convection in a fluid-saturated porous layer within channeled walls can be through either the convectively amplified perturbations or absolutely unstable modes. The convective type route to formation of cellular forms has received much more interest in the literature than the absolute mode. This paper aims to explore the absolute instability mechanism on triggering the Benard convection in the presence of a uniform magnetic field acting perpendicular to the channel walls. De… Show more

“…Convective flows in porous media have attracted a lot of attention in the past 10 years due to its significant uses in the energy storage systems, petroleum sector, geophysics, thermal insulation and nuclear reactor cooling (Makinde, 2009). Turkyilmazoglu (2023) explored the mechanism of absolute instability during the triggering of B enard convection in the presence of a uniform magnetic field acting perpendicular to the walls of the porous channel. His results show a stabilizing effect of the magnetic field.…”

Linear stability analysis of MHD mixed convection flow of a radiating nanofluid in porous channel in presence of viscous dissipation

“…Convective flows in porous media have attracted a lot of attention in the past 10 years due to its significant uses in the energy storage systems, petroleum sector, geophysics, thermal insulation and nuclear reactor cooling (Makinde, 2009). Turkyilmazoglu (2023) explored the mechanism of absolute instability during the triggering of B enard convection in the presence of a uniform magnetic field acting perpendicular to the walls of the porous channel. His results show a stabilizing effect of the magnetic field.…”

Linear stability analysis of MHD mixed convection flow of a radiating nanofluid in porous channel in presence of viscous dissipation

Numerical Study of Internal Two-Phase Flow Characteristics of an Outside-In-Liquid Atomizer

Stochastic simulation of magnetically controlled convection in porous media with random porosity via Karhunen-Loève expansion and intrusive polynomial chaos expansion