Computer simulation of shock wave boundary layer interaction

This paper describes a new numerical study of the flat plate shock/boundary-layer interaction by using a weighted high-resolution, total variation diminishing (TVD) scheme. The key difference of this study from former studies is that new secondary vortices in the separated region have been found for

The interaction between a curved shock wave and a compressible vortex is numerically investigated. The investigation concentrates on the local deformation of the shock structure due to the shock -vortex interaction. The essentially non-oscillatory (ENO) scheme is used to solve the unsteady two-dimen

## Abstract A model of the wave and current boundary‐layer structure was developed using the __k__–ε turbulent closure model. The finite‐difference method was used to solve the governing equations. Vertical logarithmic grids and equal time steps were adopted. The following modelled simulations were

The present paper makes use of a wave equation formulation of the primitive shallow water equations to simulate one-dimensional free surface flow. A numerical formulation of the boundary element method is then developed to solve the wave continuity equation using a time-dependent fundamental solutio