Decoupled iterative schemes for solving stationary MHD problems
Provides a more efficient numerical method for solving MHD problems, which are important in plasma physics and engineering.
The paper develops a novel iterative scheme for stationary MHD problems that decouples velocity-momentum and magnetic induction equations, reducing system size and requiring only one-time assembly of Stokes systems. Numerical experiments demonstrate effectiveness.
We develop a novel iterative approach for solving the incompressible magnetohydrodynamics problem. The main idea is to split the velocity-momentum and magnetic induction equations with respect to the diffusive terms. As a result, we get a smaller system that is iteration-level-dependent, along with two Stokes systems that need to be assembled only once. We also extended the scheme to the Els{ä}sser variables reformulation of the equations. For both schemes, we established boundedness and convergence. Several numerical experiments are presented to show the effectiveness of the schemes.