AbstractNumerical simulation of nonlinear interactions between water wave and coastal structures is performed using a high-order difference method. In the model, a multiphase flow model based on the Navier-Stokes equations using a constrained interpolation profile (CIP) method for the flow solver is used to estimate wave-structure interactions. A more accurate interface capturing scheme, the VOF/WLIC scheme (WLIC: weighed line interface calculation), is adopted as the interface capturing method. Water wave interacting with submerged breakwater is computed and compared with available experiments. Main attentions are paid to the wave profile and velocity-pressure domain. Comparisons with experimental date show good agreements. It is demonstra...
Offshore structures are required to survive in extreme wave environments. Historically, the design o...
Submerged shore-parallel breakwaters for coastal defence are a good compromise between the need to m...
A multiphase flow numerical approach for performing large-eddy simulations of three-dimensional (3D)...
AbstractNumerical simulation of nonlinear interactions between water wave and coastal structures is ...
Water entry and exit, green water on deck, sloshing in tanks and capsizing in intact and damaged con...
The extremely nonlinear interaction between waves and marine structures is one of most challenging p...
The propagation on submerged structures of solitary wave, as a typical nonlinear wave, has guiding s...
A Constrained Interpolation Profile (CIP) based multi-phase numerical viscous wave flume was constru...
The strongly nonlinear interaction between a solitary wave and the submerged barrier is investigated...
The modelling of wave-structure interaction (WSI) has significant applications in understanding natu...
In high waves, ships or floating structures may experience highly nonlinear phenomena such as slammi...
This thesis concerns the development of an exact or fully nonlinear numerical model capable of descr...
Submerged objects are widely occurred in ocean and coastal engineering. Their presence ...
We introduce a dynamic-boundary numerical wave generation procedure developed for wave structure int...
This paper represents a solver for numerical simulation of breaking waves, developed at Ghent Univer...
Offshore structures are required to survive in extreme wave environments. Historically, the design o...
Submerged shore-parallel breakwaters for coastal defence are a good compromise between the need to m...
A multiphase flow numerical approach for performing large-eddy simulations of three-dimensional (3D)...
AbstractNumerical simulation of nonlinear interactions between water wave and coastal structures is ...
Water entry and exit, green water on deck, sloshing in tanks and capsizing in intact and damaged con...
The extremely nonlinear interaction between waves and marine structures is one of most challenging p...
The propagation on submerged structures of solitary wave, as a typical nonlinear wave, has guiding s...
A Constrained Interpolation Profile (CIP) based multi-phase numerical viscous wave flume was constru...
The strongly nonlinear interaction between a solitary wave and the submerged barrier is investigated...
The modelling of wave-structure interaction (WSI) has significant applications in understanding natu...
In high waves, ships or floating structures may experience highly nonlinear phenomena such as slammi...
This thesis concerns the development of an exact or fully nonlinear numerical model capable of descr...
Submerged objects are widely occurred in ocean and coastal engineering. Their presence ...
We introduce a dynamic-boundary numerical wave generation procedure developed for wave structure int...
This paper represents a solver for numerical simulation of breaking waves, developed at Ghent Univer...
Offshore structures are required to survive in extreme wave environments. Historically, the design o...
Submerged shore-parallel breakwaters for coastal defence are a good compromise between the need to m...
A multiphase flow numerical approach for performing large-eddy simulations of three-dimensional (3D)...