Simulation of free surfaces in 3-D with the arbitrary Lagrange–Euler method

In a previous paper by Szabo and Hassenger 1 , denoted as S&H in the following, we have described a simulation method for 3D ¯ow with free surfaces. The method includes surface tension and is applicable to transient ¯ow. The mesh points can be moved in an arbitrary fashion in the interior ¯ow domain

The mathematical formulation of the dynamics of free liquid surfaces including the effects of surface tension is governed by a non-linear system of elliptic differential equations. The major dif®culty of getting unique closed solutions only in trivial cases is overcome by numerical methods. This pap

A technique for modelling of arbitrary three-dimensional dynamically propagating cracks in elastic bodies by the Element-Free Galerkin (EFG) method with explicit time integration is described. The meshless character of this approach expedites the description of the evolving discrete model; in contra

A numerical model for the simulation of three-dimensional liquid-gas flows with free surfaces and surface tension is presented. The incompressible Navier-Stokes equations are assumed to hold in the liquid domain, while the gas pressure is assumed to be constant in each connected component of the gas