We propose an integral form of the fully non-linear Boussinesq equations in contravariant formulation, in which Christoffel symbols are avoided, in order to simulate wave transformation phenomena, wave breaking and near shore currents in computational domains representing the complex morphology of real coastal regions. The motion equations retain the term related to the approximation to the second order of the vertical vorticity. A new Upwind Weighted Essentially Non-Oscillatory scheme for the solution of the fully non- linear Boussinesq equations on generalised curvilinear coordinate systems is proposed. The equations are rearranged in order to solve them by a high resolution hybrid finite volume–finite difference scheme. The cons...
In this paper, a fully nonlinear Boussinesq model is presented and applied to the description of bre...
A coastal ocean hydrodynamics modelling system has been created, with potential for future improveme...
Understanding the behaviour of waves and their interaction with the coast is vital for marine engin...
AbstractIn this paper we propose an integral form of the fully non-linear Boussinesq equations in co...
In this paper we propose a new model based on a contravariant integral form of the fully non-linear ...
In this paper, we propose a model based on a new contravariant integral form of the fully nonl inear...
A model for the sea-bottom change simulations in coastal areas with complex shorelines is proposed. ...
A Boussinesq-type model is applied herein to study wave propagation and wave breaking over complex b...
International audienceIn this paper, a new method to handle wave breaking in fully non-linear Boussi...
In this paper, a shock-capturing numerical model, based on the combined solution of Boussinesq and n...
In this paper, a new Boussinesq water wave theory is derived which can simulate highly dispersive no...
We propose a three-dimensional non-hydrostatic shock-capturing numerical model for the simulation of...
Summarization: A new methodology is presented to handle wave breaking over complex bathymetries in e...
The application and validation, with respect to the transformation, breaking and run-up of irregular...
The interplay between low and high frequency waves is groundwork for the near-shore hydrodynamics fo...
In this paper, a fully nonlinear Boussinesq model is presented and applied to the description of bre...
A coastal ocean hydrodynamics modelling system has been created, with potential for future improveme...
Understanding the behaviour of waves and their interaction with the coast is vital for marine engin...
AbstractIn this paper we propose an integral form of the fully non-linear Boussinesq equations in co...
In this paper we propose a new model based on a contravariant integral form of the fully non-linear ...
In this paper, we propose a model based on a new contravariant integral form of the fully nonl inear...
A model for the sea-bottom change simulations in coastal areas with complex shorelines is proposed. ...
A Boussinesq-type model is applied herein to study wave propagation and wave breaking over complex b...
International audienceIn this paper, a new method to handle wave breaking in fully non-linear Boussi...
In this paper, a shock-capturing numerical model, based on the combined solution of Boussinesq and n...
In this paper, a new Boussinesq water wave theory is derived which can simulate highly dispersive no...
We propose a three-dimensional non-hydrostatic shock-capturing numerical model for the simulation of...
Summarization: A new methodology is presented to handle wave breaking over complex bathymetries in e...
The application and validation, with respect to the transformation, breaking and run-up of irregular...
The interplay between low and high frequency waves is groundwork for the near-shore hydrodynamics fo...
In this paper, a fully nonlinear Boussinesq model is presented and applied to the description of bre...
A coastal ocean hydrodynamics modelling system has been created, with potential for future improveme...
Understanding the behaviour of waves and their interaction with the coast is vital for marine engin...