Wave-current interaction affects both wave characteristics and current properties and
therefore the combined forces on coastal structures. In the first part of this paper, a series of …

Bragg scattering of nonlinear surface waves over a wavy bottom is studied using two-
dimensional fully nonlinear numerical wave tanks (NWTs). In particular, we consider cases …

In this paper, a meshless numerical wave flume, based on the generalized finite difference
method (GFDM), is adopted to accurately and efficiently simulate the interactions of water …

A three-dimensional, fully-nonlinear numerical wave tank (NWT) is developed and utilized to
analyze the interaction between nonlinear waves and fixed or floating bodies with uniform …

The fully nonlinear wave potential theory is employed to analyze interactions of water waves
and a group or an array of vertical cylinders in a uniform current in three-dimensions (3D) …

Fully nonlinear wave–body interactions for a stationary floating structure under regular and
irregular waves for different water depths, wave heights and periods are studied in a 2-D …

Combined with new numerical techniques, the boundary element method is adopted to
study the 3D bubble growth and detachment from a submerged nozzle under constant …

On the basis of a time-domain higher-order boundary element method, a two-dimensional
fully nonlinear numerical wave flume is developed to investigate the nonlinear interactions …

This study models wave propagation over a submerged trapezoidal bar problem with a
Higher Order Boundary Element Method (HOBEM) based on a two-dimensional fully …

The present Ph. D. thesis aims at developing simulation tools for the integrated analysis of
offshore wind turbines detailed in two parts. The first part concludes hGAST, a general fully …