Time discretization schemes for the Stefan problem in a concentrated capacity

The dissolution of a disk-like Al 2 Cu particle is considered. A characteristic property is that initially the particle has a nonsmooth boundary. The mathematical model of this dissolution process contains a description of the particle interface, of which the position varies in time. Such a model is

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

We consider issues of stability of time-discretization schemes with exact treatment of the linear part (ELP schemes) for solving nonlinear PDEs. A distinctive feature of ELP schemes is the exact evaluation of the contribution of the linear term, that is if the nonlinear term of the equation is zero,

In the paper we draw on the mathematical formulation of the coupled contact Stefan-like problem in deformation theory of plasticity, which arises from the discretization in time. The problem leads to solving the system of variational inequalities, which is approximated by the FEM. Numerical analysis