Landslide-generated waves (LGWs) are among natural hazards that have stimulated
attentions and concerns of engineers and researchers during the past decades. At the same …

This paper presents a comprehensive review of boundary element methods for
hydrodynamic modelling of wave energy systems. To design and optimise a wave energy …

Nonlinear interactions between waves and floating bodies are investigated using the weakly
compressible Smoothed Particle Hydrodynamic (WCSPH) method. An improved algorithm …

One of the main stages in the design of wave energy converters (WEC's) is the numerical
modelling of a given converter. In this paper, the numerical simulation of both linear deep …

A theoretical model based on the linear potential theory is presented for two heaving
oscillating water column (OWC) devices separated by a gap. The model includes relative …

This paper develops second-order theory for narrow-banded surface gravity wavepackets
experiencing a sudden depth transition based on a Stokes and multiple-scales expansion …

The fully nonlinear regular and focused wave propagation and diffraction around a vertical
circular cylinder in a numerical wave tank are investigated. The Mixed Eulerian–Lagrangian …

This paper presents further development of the quasi arbitrary Lagrangian–Eulerian finite
element method (QALE‐FEM) based on a fully non‐linear potential theory to numerically …

This paper extends the QALE-FEM (quasi arbitrary Lagrangian–Eulerian finite element
method) based on a fully nonlinear potential theory, which was recently developed by the …

The use of a simple, inexpensive, and effective type of floating breakwater is increasingly
becoming a necessity in shoreline and marine structure protection. This study concerns the …