A fully conservative model for compressible two-fluid flow

The generalized Riemann problem (GRP) scheme for the hydrodynamic conservation laws is extended to a two-dimensional moving boundary tracking (MBT) configuration, aimed at treating time-dependent compressible flows with moving (impermeable) boundary surfaces. A Strang-type operator splitting is empl

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

This work presents a mixed three-dimensional finite element formulation for analyzing compressible viscous flows. The formulation is based on the primitive variables velocity, density, temperature and pressure. The goal of this work is to present a 'stable' numerical formulation, and, thus, the inte

## Abstract This paper is to continue our previous work Niu (__Int. J. Numer. Meth. Fluids__ 2001; **36**:351–371) on solving a two‐fluid model for compressible liquid–gas flows using the AUSMDV scheme. We first propose a pressure–velocity‐based diffusion term originally derived from AUSMDV scheme

describes an ocean in hydrostatic and geostrophic balance with water of constant density, bounded by rigid upper A spectral numerical scheme is developed for simulations of twodimensional incompressible fluid flow in a circular basin. The vorticand lower boundaries. It can be shown [9] that this sys