Upwind discretization of a time-dependent two-dimensional grade-two fluid model

We prove the existence of a weak solution of a time-dependent grade-two fluid model in a plane Lipschitz domain and uniqueness of the solution in a convex polygon. The method of proof is constructive and can be adapted to the numerical analysis of finite-element schemes for solving this problem nume

We consider a system with three unknowns in a two-dimensional bounded domain which models the ow of a grade-two non-Newtonian uid. We propose to compute an approximation of the solution of this problem in two steps: addition of a regularization term, ÿnite element discretization of the regularized p

The distribution function of ions is calculated in a two-dimensional plasma with a rapidly expanding sheath, self-consistently with the electrostatic potential, \(\phi\). The numerical procedure consists of a direct solution of an integral form of the kinetic equation. This solution relies on the us

In many geophysical fluid modeling applications there exist two very different time scales, essentially fast waves and slow vortices. At the largest planetary scales inertialgravity waves propagate through the fluid at phase speeds much faster than particle velocities, while at small scales fast aco