Pengyao Yu scite author profile

The bow-flared section may be simplified in the prediction of slamming loads and whipping responses of ships. However, the difference of hydrodynamic characteristics between the water entry of the simplified sections and that of the original section has not been well documented. In this study, the water entry of several different bow-flared sections was numerically investigated using the computational fluid dynamics method based on Reynolds-averaged Navier–Stokes equations. The motion of the grid around the section was realized using the overset mesh method. Reasonable grid size and time step were determined through convergence studies. The application of the numerical method in the water entry of bow-flared sections was validated by comparing the present predictions with previous numerical and experimental results. Through a comparative study on the water entry of one original section and three simplified sections, the influences of simplification of the bow-flared section on hydrodynamic characteristics, free surface evolution, pressure field, and impact force were investigated and are discussed here.

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A CFD based Kriging model for predicting the impact force on the sphere bottom during the early-water entry

Shen

Wang

et al. 2022

Ocean Engineering

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Pengyao Yu

Dynamic modeling and three-dimensional motion simulation of a disk type underwater glider

Numerical study on the water entry of curved wedges

Hydroelastic analysis on water entry of a constant-velocity wedge with stiffened panels

Numerical Investigation on the Water Entry of Several Different Bow-Flared Sections

A CFD based Kriging model for predicting the impact force on the sphere bottom during the early-water entry

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