Computer modeling of complex fluid flows usually presents great challenges for
conventional grid-based numerical methods. Smoothed particle hydrodynamics (SPH) is a …

Smoothed particle hydrodynamics (SPH), as one of the earliest meshfree methods, has
broad prospects in modeling a wide range of problems in engineering and science …

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 …

In this paper, the hydrodynamic performance of a bottom-seated type oscillating water
column (OWC) device is investigated by numerical and experimental methods. A coupled …

Hydroelastic fluid-structure interaction (FSI) problems usually involve nonlinear free surface
flows, large structure deformations and changing interfaces, which present great challenges …

Particulate flows with thermal convection are very challenging to simulate numerically due to
the existence of constantly moving boundaries and complex heat-fluid coupling effects …

Liquid sloshing flows interacting with deformable structures are difficult to be numerically
simulated due to the co-existence of moving fluid-structure interfaces and breaking free …

The hydrodynamic characteristics of perforated caissons are significantly influenced by the
viscous fluid motion near the perforations on the front wall. Consequently, models designed …

Euler-Lagrange method is powerful for studying dense gas-solid flow, where the Eulerian
grid is typically 3–5 times of particle diameter to ensure the accuracy of information map** …

Wave impact on offshore and coastal structures, such as oil and gas rigs, offshore wind
turbine platforms, breakwaters, flood protection systems and wave energy converters …