A boundary element method (BEM) model is presented for wave forces on structures
composed of solid and porous surfaces, where the porous surface can be subject to either a …

Wave energy offers a promising renewable energy source, however, technologies
converting wave energy into useful electricity face many design challenges. This guide …

In the field of offshore renewable energy, impermeable plates are used as underwater
lenses to amplify the wave amplitude, and perforated plates can harness wave energy as a …

The method of boundary integral equation is widely applied to compute and analyze wave–
structure interactions in marine and offshore engineering, and the application is also seen in …

Inspired by the energy island used for energy storage, conversion, and transmission, this
study explores the water wave interactions with a bottom-standing cylinder surrounded by …

This paper presents a Finite Element–Dual Boundary Element Method (FE-DBEM) for
hydroelastic analysis of very large floating structures protected by vertical perforated barrier …

The behavior of an offshore structure in regular waves–and the related (linear and
nonlinear) wave loads, added-mass and wave-damping coefficients, and body-motions–are …

Diffraction-radiation of regular waves by offshore structures and flows around ships
advancing in calm water or in regular waves are commonly analyzed via potential-flow …

This paper presents a numerical mothed that is implemented by applying higher-order
boundary elements in the hybrid integral equation method for predicting the wave forces on …

Diffraction–radiation of regular waves by a body such as an offshore structure or a moored
ship is considered within the classical framework of potential-flow theory, which is commonly …