A fully discrete scheme for diffusive-dispersive conservation laws

The present paper is a sequel to two previous papers in which rigorous, up to fourth-order, fully discrete (FD) upwind TVD schemes have been presented. In this paper we discuss in detail the extension of these schemes to solutions of non-linear hyperbolic systems. The performance of the schemes is a

We approximate a locally unique solution of an equation in Banach spaces using a Newton-like method of R-order three. Then we apply this method to obtain an existence-uniqueness result for a basic conservative problem given by a nonlinear boundary-value problem. Next, by means of a discretization me

The second-order extenmon of Godunov's method for hyperbohc conservatton laws, known as MUSCL schemes, is studied in thxs paper. We present a new type of Eulenan MUSCL scheme and oscillation-free algorithms The mtercell flux is computed from difference approximations of characteristic equations with

A singularities tracking version of the GRP scheme for the integration of the Euler equations for compressible duct flow is presented. Flow singularities corresponding to contact (material), shock, or gradient discontinuities are represented by special grid points that move through the fixed grid at