Sharif University of TechnologyScientia Iranica1026-309822320150601Numerical Study of Magneto-Convection inside an Enclosure using Enhanced Stream Function-Vorticity Formulation Numerical Study of Magneto-Convection inside an Enclosure using Enhanced Stream Function-Vorticity Formulation 8548643678ENM.A.TaghikhaniDepartment of Engineering, Imam Khomeini International University, Qazvin, IranJournal Article20141014The buoyancy-driven magneto-hydrodynamic flow is investigated using a two-dimensional numerical simulation in a filled square enclosure, which is heated by a uniform volumetric heat density. The top and bottom walls of the enclosure are adiabatic and the side walls have constant temperature. A fixed magnetic field is applied in the direction normal to the left side wall of the enclosure. The stationary dimensionless governing equations are solved numerically for the stream function, vorticity and temperature, with finite difference method, using MATLAB software. The Prandtl (Pr) number of the fluid is assumed to be 0.733; the Rayleigh (Ra) number is made to vary from 104 to 107 and the Hartmann (Ha) number between 0 and 103. The stream function equation is solved using fast Poisson's equation solver on a rectangular grid (POICALC function in MATLAB) vorticity, and temperature equations are solved using the red-black Gauss-Seidel and bi-conjugate gradient stabilized (BiCGSTAB) methods, respectively. The proposed method is fast, and there is no need for the variables under-relaxation. It is interesting to know that convergence of this method is superior to other segregated algorithms. The ratio of the Lorentz force to the buoyancy force (Ha2Ra) is introduced as an index, to compare the contribution of natural convection with magnetic field strength on heat transfer. http://scientiairanica.sharif.edu/article_3678_34645bcf82a82c71c88d60b49361b09b.pdf