A numerical study of flow over a confined backward-facing step

A numerical investigation of laminar flow over a three-dimensional backward-facing step is presented with comparisons with detailed experimental data, available in the literature, serving to validate the numerical results. The continuity constraint method, implemented via a finite element weak state

Particle-laden flows are calculated for a classical laminar backward-facing step problem. The particle tracks are calculated using a recently developed exponential Lagrangian tracking scheme. The behaviour of the particleladen flow is considered for various inlet for Reynolds number, Stokes numbers

The stochastic Monte Carlo method is an excellent method for the investigation of particle dispersion in a variety of situations, usually it is coupled with the k-turbulence model. Traditionally, an exponential scheme has been employed in order to integrate particle trajectories. Recently, however,

The study investigates the entrance effect for ¯ow over a backward-facing step by comparing predictions that set the inlet boundary at various locations upstream of the sudden expansion. Differences are most signi®cant in the sudden expansion region. If the geometry has an inlet channel, then shorte