This paper aims at providing a state-of-the-art review on the applications of particle methods
in hydrodynamics-related problems in ocean and coastal engineering. The problems are …

The mathematical modeling of the interaction of water waves with porous coastal structures
has continuously been among the most relevant challenges in coastal engineering research …

Coastal vegetation serves as an effective nature-based solution for protecting shorelines
from erosion and storm surges. A detailed understanding of the dynamic interactions …

The paper presents a numerical wave flume with porous media of variable porosity. A fully-
Lagrangian computational method is developed for simulation of fluid flow interactions with …

In this work, a three-dimensional multi-layer SPH method is presented for generic water–soil
dynamic coupling problems. Based on the mixture theory, two mathematical models using …

A two-phase one-layer stabilised node-based strain-smoothing Particle Finite Element
Method (SNS-PFEM) was previously proposed, but it lacked the capability to simulate water …

Abstract Smoothed Particle Hydrodynamics (SPH) is brought to a level that can be applied to
simulate turbulent open channel flows over and within natural porous gravel beds. For this …

Numerical simulations were performed for morphodynamics with free water surface
fluctuation using the DEM-MPS method, which employs the discrete element method (DEM) …

The effects of reef permeability on the spatial distributions of wave-induced current inside
and outside the inhomogeneous coral reef body are investigated using an improved weakly …

This work adopts the ISPH method for handling the impact flow of a circular cylinder over a
free surface flow saturated by the porous media. The novelty of this work is simulating the …