固定矩形驳船舷向浪的波相互作用的(PIV)实验研究
This paper presents an experimental study on wave interactions with arectangular barge in a beam sea condition. Regular waves with a waveperiod the same as the natural frequency of the barge were used in the experiments due to the fact that the barge is prone to capsizing under such waves. The barge was fixed on the free surface and no waveovertopping was assumed. Particle Image Velocimetry (PIV) wasemployed to measure the full-field two-dimensional velocity. Since the flow is highly turbulent, the phase-averaging technique was used to the extract the mean flow and turbulence properties. The mean flowpattern, including velocity, vorticity, and streamline, was analyzed to quantify the mechanism of the interactions. The generation andevolution of vorticity and turbulence kinetic energy were demonstrated.The turbulent kinetic energy is found to highly correlate with the vorticity field