Numerical modelling of regular wave slamming on subface of open-piled structures with the corrected SPH method

The paper presents a 2D SPH numerical flume to investigate regular wave slamming on an open-piled structure. The model employs CSPM and Riemann solution to discretize the Navier–Stokes equations. Solid boundaries are simulated by wall particles. The pressure of these dummy particles is determined by a coupling approach, which can keep the pressure field more stable near the boundaries. In addition, an improved wall particles treatment is used for accurate tracking of impacting characteristics around the structure. Then, the improved SPH model is employed to simulate regular wave impacting on the subface of the structure. The main features of velocity field and pressure field near the structure are presented. And the model is validated against the experimental data and a relative good agreement is observed.

► Regular wave slamming on an open-piled structure is simulated in a 2D SPH numerical flume. ► The CSPM and Riemann solution are used to discrete the Navier–Stokes equations. ► The pressure of solid wall particles is calculated by a coupling approach. ► An improved wall particles treatment is used to track the impacting characteristics around the structure. ► The calculated pressure and velocity fields are validated against the experimental data.