Rachid Bessaïh scite author profile

A numerical study of oscillatory magnetohydrodynamic (MHD) natural convection of liquid metal between vertical coaxial cylinders is carried out. The motivation of this study is to determine the value of the critical Rayleigh number, Racr for two orientations of the magnetic field and different values of the Hartmann number (Harand Haz) and aspect ratios A. The inner and outer cylinders are maintained at uniform temperatures, while the horizontal top and bottom walls are thermally insulated. The governing equations are numerically solved using a finite volume method. Comparisons with previous results were performed and found to be in excellent agreement. The numerical results for various governing parameters of the problem are discussed in terms of streamlines, isotherms and Nusselt number in the annuli. The time evolution of velocity, temperature, streamlines and Nusselt number with Racr, Har, Haz, and A is quite interesting. We can control the flow stability and heat transfer rate in varying the aspect ratio, intensity and direction of the magnetic field.

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Numerical simulation of mixed convection air-cooling of electronic components mounted in an inclined channel

Boutina

Bessaïh

2011

Applied Thermal Engineering

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Numerical modeling of MHD stability in a cylindrical configuration

Mebarek‐Oudina

Bessaïh

2014

Journal of the Franklin Institute

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Rachid Bessaïh

Numerical simulation of natural convection heat transfer of copper-water nanofluid in a vertical cylindrical annulus with heat sources

Mixed convection air cooling of protruding heat sources mounted in a horizontal channel

Oscillatory Magnetohydrodynamic Natural Convection of Liquid Metal between Vertical Coaxial Cylinders

Numerical simulation of mixed convection air-cooling of electronic components mounted in an inclined channel

Numerical modeling of MHD stability in a cylindrical configuration

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