Title :
A finite element-finite difference computation of magnetic and turbulent flow coupled problem
Author :
Gliere, A. ; Masse, Ph. ; Fautrelle, Y.
Author_Institution :
Alsthom-Scam, Bagnolet, France
fDate :
1/1/1988 12:00:00 AM
Abstract :
A finite element-finite difference coupled method is used for the computation of the parameters of a turbulent flow of conducting liquid in a 2-D or axisymmetrical field. A finite-element accurate computation of the σV×B currents has been tested. The velocity and pressure fields are predicted with a k-ε effective viscosity model solved by a finite-difference method based on a three-grid meshing and conditional upwind differencing scheme. The effect of the σV×B currents on the body forces and the velocity field is evaluated in the case of the rotational electromagnetic stirring of square billets
Keywords :
difference equations; finite element analysis; magnetic devices; magnetic fields; magnetohydrodynamics; turbulence; 2D field; axisymmetrical field; conducting liquid; effective viscosity model; finite element-finite difference computation; magnetic problems; pressure fields; rotational electromagnetic stirring; square billets; turbulent flow coupled problem; velocity fields; Conducting materials; Eddy currents; Electromagnetic coupling; Electromagnetic fields; Electromagnetic forces; Equations; Finite element methods; Fluid flow; Magnetic materials; Stability; Testing;
Journal_Title :
Magnetics, IEEE Transactions on
