Spray Formation during the Impact of a Flat Plate on a Water Surface

In naval hydrodynamics most the reseach on the impact of the hull of a vesel to the water surface has focused primarily on mapping the forces on the hull and much less to the formation of the spray. The latter is the topic of the present work, where the spray generated by the impact of a flat plate on a quiescent water surface is studied by experiments and simulations at different impact Froude numbers. Overall two types of sprays are formed: Type I, which is a cloud of droplets and ligaments generated at the impact of the plate's leading edge with the water surface, and Type II, which is formed after the trailing edge of the plate enters the local water surface. Detailed analysis of the experimental data for the Type II spray revealed that the spray envelopes and root point trajectories are independent of Froude number close to the trailing edge, while further away reach higher vertical positions for larger Froude numbers. The numerical simulation captures the general behavior of the Type II spray and agrees favorably with the experimental results. A series of computations with a flexible plate is also reported, where it is shown that increased flexibility reduces the height of the spray and suppresses the formation of droplets.
Comment: Proceedings of the 31st Symposium on Naval Hydrodynamics, Monterey, California, USA, September 2016