A Eulerian–Lagrangian method for the simulation of wave propagation

A method is described that allows the simulation of the flow of an incompressible fluid through rotary displacement pumps. The two-dimensional incompressible Navier-Stokes equations in arbitrary Lagrangian-Eulerian formulation are discretized on a triangular grid using a finite-volume method. Fully

This paper presents the extension of the PEM scheme for the case of multidimensional wave problems. This is done on the basis of operator splitting and the PEM scheme for the one-dimensional wave equation given in the previous publication (V. Zalizniak, Commun. Numer. Meth. Engrg. 13 (3) (1997) 163±

## Abstract Our purpose is to develop an efficient coupling between incompressible multiphase flows and fixed or moving obstacles of complex shape. The flow is solved on a fixed Cartesian grid and the solid objects are represented by surface elements. Our strategy is based on two main originalities

A Fourier analysis was performed in order to study the numerical characteristics of the effective Eulerian-Lagrangian least squares collocation (ELLESCO) method. As applied to the transport equation, ELLESCO requires a C1-continuous trial space and has two degrees of freedom per node. Two coupled di