Numerical simulation of fully non-linear steady free surface flow

This paper describes an extension of the GENSMAC code for solving two-dimensional free surface flows to axisymmetric flows. Like GENSMAC the technique is finite difference based and embodies, but considerably extends, the SMAC (simplified marker and cell) ideas. It incorporates adaptive time steppin

An algorithm to simulate steady, viscous free surface flows is presented in this paper. A Picard-type approach wherein the flow and free surface updates are performed alternately is utilized to iterate for a solution. The procedurr is intended for large-scale two-or three-dimensional problems. A sur

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

Systematic tests have been performed to study the behaviour of a numerical method developed to calculate 2D, steady free surface ¯ows. The Reynolds equations are solved in the physical space by employing a nonorthogonal staggered grid, while the k±e model is adopted to approximate the Reynolds stres