Overview of Moving Particle Semi-implicit Techniques for Hydrodynamic Problems in Ocean Engineering

With the significant development of computer hardware, many advanced numerical techniques have been proposed to investigate complex hydrodynamic problems. This article aims to provide a detailed review of moving particle semi-implicit (MPS) techniques and their application in ocean and coastal engineering. The achievements of the MPS method in stability and accuracy, boundary conditions, and acceleration techniques are discussed. The applications of the MPS method, which are classified into two main categories, namely, multiphase flows and fluid-structure interactions, are introduced. Finally, the prospects and conclusions are highlighted. The MPS method has the potential to solve practical problems.

Automated summary

This article provides a detailed review of moving particle semi-implicit (MPS) techniques and their applications in ocean and coastal engineering. The achievements of the MPS method in stability, accuracy, boundary conditions, and acceleration techniques are discussed, and its applications in multiphase flows and fluid-structure interactions are introduced. The MPS method has the potential to solve practical problems.