Article ID Journal Published Year Pages File Type
660981 International Journal of Heat and Mass Transfer 2008 14 Pages PDF
Abstract

In the present numerical study the effect of constant transverse magnetic field on convection of low Prandtl number liquid metal rotating in a cubical cavity with an aspect-ratio of 8:8:1 has been investigated. The bottom wall is heated while the top-wall is cooled and all the other walls are kept thermally insulated. The governing equations of mass, momentum, energy and magneto-hydrodynamic for a frame rotating with the enclosure, subject to Boussinesq approximation applied to gravity and centrifugal force terms, have been solved on a collocated grid using a semi-implicit finite difference method. The simulations have been carried out for liquid metal flows having a fixed Prandtl number Pr=0.01Pr=0.01, Rayleigh number Ra=107Ra=107, and magnetic Prandtl number Pm=4.0×10-4Pm=4.0×10-4 while Chandrasekhar number Q   varies from 5.0625×1045.0625×104 to 1.21×1061.21×106 and non-dimensional rotation rate ΩΩ is varied from zero to 105105.The increase in strength of transverse magnetic field (from Ql=5.0625×104Ql=5.0625×104 to Qh=1.21×106Qh=1.21×106) till Q≃TaQ≃Ta leads to slight increase in convective heat transfer as well as formation of two-dimensional coherent structures aligned along the direction of magnetic field. For cases pertaining to Q

Related Topics
Physical Sciences and Engineering Chemical Engineering Fluid Flow and Transfer Processes
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