A Sharp Interface Cartesian Grid Method for Simulating Flows with Complex Moving Boundaries

A Cartesian grid method has been developed for simulating two-dimensional unsteady, viscous, incompressible flows with complex immersed boundaries. A finitevolume method based on a second-order accurate central-difference scheme is used in conjunction with a two-step fractional-step procedure. The k

## Abstract A level set approach for computing solutions to inviscid compressible flow with moving solid surface is presented. The solid surface is considered to be sharp and is described as the zero level set of a smooth explicit function of space and time. The finite volume TVD–MacCormack's two‐s

A parallel multigrid finite volume solver for the prediction of unsteady flows in rotor-stator configurations using a moving-grid technique is presented. The numerical solution procedure is based on a second-order finite volume discretization with collocated block-structured grids, an implicit time

are examples of this type; see, e.g., the recent review paper [12] for references. The disadvantage of front tracking In this paper, a hybrid approach which combines the immersed interface method with the level set approach is presented. The fast methods is that it requires explicit tracking of the