An alternative numerical method for the solution of 2D wedge water-entry problems is presented. An improved Complex Variable Boundary Element Method (CVBEM) is stressfully applied to study the strongly nonlinear fluid-structure interaction in a wedge water-entry problem. The free flow surface, splash deformation approximation and pressure distribution on the wetted surface are numerically simulated in a framework of the complex velocity potential theory and the time domain. The special splash treatment technique is introduced to the improved CVBEM. And the same time, the free surface is numerically divided into two regions and re-meshed approximately to simulate splash deformation. Finally, the simulation results show that the proposed method appropriately simulates the water impact problem and the same time it agrees very well with splash deformation observed in a real instance.
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