Magneto Hydrodynamics Free Convection in a Rectangular Enclosure with Three Square Heated Block

In this case, an increase in Rayleigh number has an insignificant effect on heat and mass transfer because in higher Ra with natural convection dominated

In the present study natural convection at various Rayleigh numbers the fluid flow and heat transfer in a differentially heated rectangular cavity with a fin attached to

Keywords: Natural Convection, Nusselt Number, Square Cavity, Numerical Simulation, Finite Difference Method, Heat Source, Streamline, Isotherm, Average Nusselt

Using a numerical simulation based on the finite element method, the Magnetohydrodynamic free convection fluid flow and heat transfer in a rectangle cavity

A computational model is presented that extends prior work on unsteady natural convection in a tall rectangular cavity with aspect ratio 10 and applies Proper Orthogonal

At the lowest Rayleigh number ( Ra = 10 4 ), a relatively weak convective flow exists in the quadrantal cavity. As the Rayleigh number increases, the elliptical centre shifts

10 these lines accumulate near the upper horizontal wall creating a plume just above the diamond shaped heated block and it divides the bottom wall in three parts.

Main attention has been focused on the effect of the main factors, including the Rayleigh number (Ra), the solid volume fraction of nanoparticle (φ), and the Hartmann