An exact numerical scheme for a long-term simulation of three-dimensional potential fully-nonlinear periodic gravity waves is suggested. The scheme is based on a surfacefollowing non-orthogonal curvilinear coordinate system and does not use the technique based on expansion of the velocity potential. The Poisson equation for the velocity potential is solved iteratively. The Fourier transform method, the secondorder accuracy approximation of the vertical derivatives on a stretched vertical grid and the fourth-order Runge-Kutta time stepping are used. The scheme is validated by simulation of steep Stokes waves. The model requires considerable computer resources, but the one-processor version of the model for PC allows us to simulate an evoluti...
This paper describes the results of more than 4000 long-term (up to thousands of peak wave periods) ...
An accurate representation of a given sea state is crucial for the study of hydrodynamic loads on of...
A number of recent improvements in a higher-order three-dimensional (3D) panel method for highly non...
A simple and exact numerical scheme for long-term simulations of 3D potential fully nonlinear period...
A numerical model for long-term simulation of gravity suface waves is described. The model is design...
A method for numerical investigation of nonlinear wave dynamics based on direct hydrodynamical model...
The improved method of modelling of three-dimensional surface waves is described. Contrary to approx...
The numerical modeling of two-dimensional surface wave development under the action of wind is perf...
New method for numerical simulation of potential flows with a free surface of two-dimensional fluid,...
A direct wave model based on the one-dimensional nonlinear equations for potential waves is used for...
In this paper we report on the development of a time accurate fully non linear potential flow model ...
<正> A new method is presented for the computation of two-dimensional periodicprogressive surfa...
AbstractWe present a numerical method for the computation of surface gravity waves in the presence o...
This paper compares the energy calculations of the potential and kinetic energy, and the power gener...
Includes bibliographical references"May 1968"In the classical problem of two-dimensional gravity wav...
This paper describes the results of more than 4000 long-term (up to thousands of peak wave periods) ...
An accurate representation of a given sea state is crucial for the study of hydrodynamic loads on of...
A number of recent improvements in a higher-order three-dimensional (3D) panel method for highly non...
A simple and exact numerical scheme for long-term simulations of 3D potential fully nonlinear period...
A numerical model for long-term simulation of gravity suface waves is described. The model is design...
A method for numerical investigation of nonlinear wave dynamics based on direct hydrodynamical model...
The improved method of modelling of three-dimensional surface waves is described. Contrary to approx...
The numerical modeling of two-dimensional surface wave development under the action of wind is perf...
New method for numerical simulation of potential flows with a free surface of two-dimensional fluid,...
A direct wave model based on the one-dimensional nonlinear equations for potential waves is used for...
In this paper we report on the development of a time accurate fully non linear potential flow model ...
<正> A new method is presented for the computation of two-dimensional periodicprogressive surfa...
AbstractWe present a numerical method for the computation of surface gravity waves in the presence o...
This paper compares the energy calculations of the potential and kinetic energy, and the power gener...
Includes bibliographical references"May 1968"In the classical problem of two-dimensional gravity wav...
This paper describes the results of more than 4000 long-term (up to thousands of peak wave periods) ...
An accurate representation of a given sea state is crucial for the study of hydrodynamic loads on of...
A number of recent improvements in a higher-order three-dimensional (3D) panel method for highly non...