Simulation of Unsteady Heat Transfer Electroconductive Fluid in a Spherical Cavity
S. V. Solovjov
In this paper the system of equations describing the convective heat electroconductive liquid with regard to the internal heat sources and Joule dissipation in a spherical cavity simulating liquid core of the Earth is considered. The evolution of the flow structure, temperature field, magnetic field, and the Nusselt numbers is investigated.
mathematical modeling, spherical cavity, convective heat transfer, electroconductive liquid, magnetic hydrodynamics, Joule dissipation