Homotopy-based analytical approximation to nonlinear short-crested waves in a fluid of finite depth

Homotopy-based analytical approximation to nonlinear short-crested waves in a fluid of finite depth

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摘要 A nonlinear short-crested wave system, consisting of two progressive waves propagating at an oblique angle to each other in a fluid of finite depth, is investigated by means of an analytical approach named the homotopy analysis method （HAM）. Highly convergent series solutions are explicitly derived for the velocity potential and the surface wave elevation. We find that, at every value of water depth, there is little difference between the kinetic energy and the potential energy for nonlinear waves. The nonlinear short-crested waves with a larger angle of incidence always contain the more potential wave energy. With the aid of the HAM, we obtain the dispersion relation for nonlinear short-crested waves. Furthermore, it is shown that the wave elevation tends to be smoothened at the crest and be sharpened at the trough as the water depth increases, and the wave pressure crests and troughs become steeper with increasing incident wave steepness. A nonlinear short-crested wave system, consisting of two progressive waves propagating at an oblique angle to each other in a fluid of finite depth, is investigated by means of an analytical approach named the homotopy analysis method （HAM）. Highly convergent series solutions are explicitly derived for the velocity potential and the surface wave elevation. We find that, at every value of water depth, there is little difference between the kinetic energy and the potential energy for nonlinear waves. The nonlinear short-crested waves with a larger angle of incidence always contain the more potential wave energy. With the aid of the HAM, we obtain the dispersion relation for nonlinear short-crested waves. Furthermore, it is shown that the wave elevation tends to be smoothened at the crest and be sharpened at the trough as the water depth increases, and the wave pressure crests and troughs become steeper with increasing incident wave steepness.

作者王苹卢东强

机构地区 Shanghai Institute of Applied Mathematics and Mechanics School of Mathematics and Physics Shanghai Key Laboratory of Mechanics in Energy Engineering

出处《Journal of Hydrodynamics》 SCIE EI CSCD 2015年第3期321-331,共11页 水动力学研究与进展B辑（英文版）

基金 Supported by the National Key Basic Research Development Program of China(973 Program,Grant No.2014CB046203) the National Natural Science Foundation of China(Grant No.11472166) the Natural Science Founda-tion of Shanghai(Grant No.14ZR1416200)

关键词 nonlinear short-crested waves finite water depth homotopy analysis method （HAM） wave energy wave profile nonlinear short-crested waves, finite water depth, homotopy analysis method （HAM）, wave energy, wave profile

分类号 O35 [理学—流体力学]

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Journal of Hydrodynamics

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Homotopy-based analytical approximation to nonlinear short-crested waves in a fluid of finite depth

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