In this paper we propose a new numerical model for the simulation of the wave breaking. The three-dimensional equations of motion are expressed in integral contravariant form and are solved on a curvilinear boundary conforming grid that is able to represent the complex geometry of coastal regions. A time-dependent transformation of the vertical coordinate that is a function of the oscillation of the turbulent wave boundary layer is proposed. A new numerical scheme for the simulation of the resulting equations is proposed. New boundary conditions at the free surface and bottom for the equations of motion expressed in contravariant form are proposed. We present an analysis of the importance of the correct positioning, inside the oscillating t...
Simulations in a three-dimensional numerical wave tank are performed to investigate the shoaling and...
The paper considers the application of two numerical models to simulate the evolution of steep break...
The breaking of gravity water waves induces both strong turbulence near the free surface and air–wat...
In this paper a new numerical model for the simulation of the wave breaking is proposed. In order to...
We propose a one-equation turbulence model based on a modified closure relation for the length scale...
In this paper, the hydrodynamic and free surface elevation fields in breaking waves are simulated by...
We propose a two-equation turbulence model based on modification of the k−ε standard model, for simu...
A new three-dimensional high-order shock-capturing model for the numerical simulation of breaking wa...
A three-dimensional numerical study of the hydrodynamic effect produced by a system of submerged bre...
We propose a three-dimensional non-hydrostatic shock-capturing numerical model for the simulation of...
A numerical and experimental analysis of the wave overtopping over emerged and submerged structures,...
We propose a three dimensional non-hydrostatic shock-capturing numerical model for the simulation of...
Submerged shore-parallel breakwaters for coastal defence are a good compromise between the need to m...
In this paper, we propose a model based on a new contravariant integral form of the fully nonl inear...
We present a new three-dimensional numerical model for the simulation of breaking waves. In the prop...
Simulations in a three-dimensional numerical wave tank are performed to investigate the shoaling and...
The paper considers the application of two numerical models to simulate the evolution of steep break...
The breaking of gravity water waves induces both strong turbulence near the free surface and air–wat...
In this paper a new numerical model for the simulation of the wave breaking is proposed. In order to...
We propose a one-equation turbulence model based on a modified closure relation for the length scale...
In this paper, the hydrodynamic and free surface elevation fields in breaking waves are simulated by...
We propose a two-equation turbulence model based on modification of the k−ε standard model, for simu...
A new three-dimensional high-order shock-capturing model for the numerical simulation of breaking wa...
A three-dimensional numerical study of the hydrodynamic effect produced by a system of submerged bre...
We propose a three-dimensional non-hydrostatic shock-capturing numerical model for the simulation of...
A numerical and experimental analysis of the wave overtopping over emerged and submerged structures,...
We propose a three dimensional non-hydrostatic shock-capturing numerical model for the simulation of...
Submerged shore-parallel breakwaters for coastal defence are a good compromise between the need to m...
In this paper, we propose a model based on a new contravariant integral form of the fully nonl inear...
We present a new three-dimensional numerical model for the simulation of breaking waves. In the prop...
Simulations in a three-dimensional numerical wave tank are performed to investigate the shoaling and...
The paper considers the application of two numerical models to simulate the evolution of steep break...
The breaking of gravity water waves induces both strong turbulence near the free surface and air–wat...