Numerical study of flows with multiple free surfaces

A systematic methodology of numerical stability is presented here in the study of numerical properties of mixed Eulerian-Lagrangian schemes for the numerical simulation of non-linear free surface flows. Two different numerical schemes, i.e. a source-doublet panel method and a desingularized method,

the liquid and is the surface tension. This choice of timescale makes the scaled surface tension equal to 1; i.e., the A system of partial differential equations that approximate the governing equations for inviscid free surface flow subject to surface Weber number is set to one. Henceforth, only th

## Abstract A Lagrangian finite element algorithm is described for solving two‐dimensional, time‐dependent free surface flows, in which moving contact lines are simulated by allowing local slip and the use of a ‘Tanner Law’. The method is implemented using structured meshes, which are locally refin

Numerical solution of flows that are partially bounded by a freely moving boundary is of great importance in practical applications such as ship hydrodynamics. The usual method for solving steady viscous free-surface flow subject to gravitation is alternating time integration of the kinematic condit