A direct newton solver for the two-dimensional tokamak edge plasma fluid equations

Newton's method is combined with a preconditioned conjugate gradient-like algorithm and finite volume discretization to solve the steady-state two-dimensional tokamak edge plasma fluid equations. A numerical evaluation of the Jacobian is employed. Mesh sequencing, pseudo-transient continuation, and

This paper presents how the equations of magnetohydrodynamics (MHD) in primitive form should be written in conservative form with the inclusion of a divergence source along with a divergence wave and how a physically correct sonic ®x can be embedded directly in the ¯uxes. The numerical scheme was ap

The GGrtler series method for the solution of the two-dimensional boundary-layer flow equations is extended to include Ostwald-deWaele (power-law) fluids. The resulting differential equations are solved numerically for the first two to four terms of the series solution over a wide range of dilatant

A novel pseudospectral solution procedure for the Navier-Stokes equations in the velocity-vorticity formulation, suitable to simulate flows with two nonperiodic directions, is proposed. An influence matrix method, including a tau correction procedure, has been employed to elicit an algorithmic subst