An Efficient Model for Transient Surface Waves in Both Finite and Infinite Water Depths 被引量：1

An Efficient Model for Transient Surface Waves in Both Finite and Infinite Water Depths

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摘要 A numerical model is developed to simulate fully nonlinear extreme waves in finite and infinite water-depth wave tanks. A semi-mixed Enlerian-Lagrangian formulation is adopted and a higher-order boundary element method in conjunction with an image Green function is used for the fluid domain. The botmdary values on the free surface are updated at each time step by a fourth-order Runga-Kutta time-marching scheme at each time step. Input wave characteristics are specified at the upstream boundary by an appropriate wave theory. At the downstream boundary, an artificial damping zone is used to prevent wave reflection back into the computational domain. Using the image Green function in the whole fluid domain, the integrations on the two lateral walls and bottom are excluded. The simulation results on extreme wave elevations in finite and infinite water-depths are compared with experimental results and second-order analytical solutions respectively. The wave kinematics is also discussed in the present study. A numerical model is developed to simulate fully nonlinear extreme waves in finite and infinite water-depth wave tanks. A semi-mixed Enlerian-Lagrangian formulation is adopted and a higher-order boundary element method in conjunction with an image Green function is used for the fluid domain. The botmdary values on the free surface are updated at each time step by a fourth-order Runga-Kutta time-marching scheme at each time step. Input wave characteristics are specified at the upstream boundary by an appropriate wave theory. At the downstream boundary, an artificial damping zone is used to prevent wave reflection back into the computational domain. Using the image Green function in the whole fluid domain, the integrations on the two lateral walls and bottom are excluded. The simulation results on extreme wave elevations in finite and infinite water-depths are compared with experimental results and second-order analytical solutions respectively. The wave kinematics is also discussed in the present study.

作者宁德志滕斌臧军柳淑学

机构地区 State Key Laboratory of Coastal and Offshore Engineering Department of Architecture and Civil Engineering

出处《China Ocean Engineering》 SCIE EI 2009年第3期459-472,共14页 中国海洋工程（英文版）

基金 supported by the National Natural Science Foundation of China (Grant Nos .50709005 ,50639030 and 10772040) the National High Technology Research and Development Program of China (Grant No.2006AA09A109-3) UK EPSRC(Grant Nos . GR/T07220/01 and GR/T07220/02)

关键词 focused waves fully nonlinear higher-order boundary element method image Green function infinite water depth focused waves fully nonlinear higher-order boundary element method image Green function infinite water depth

分类号 P731.2 [天文地球—海洋科学]

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