期刊文献+

破碎带波浪的数值模拟 被引量:13

Numerical modeling of waves in surf zone
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摘要 基于一组色散关系得到改进的完全非线性Boussinesq方程建立了一个波浪模型可以模拟近岸水域的波浪变浅、破碎以及在海滩上的爬高等多种变形。波浪破碎引起的能量衰减是在动量方程中引入一个在空间和时间上都只作用于波前的涡粘项来模拟。动海岸线边界用窄缝法处理。波浪爬高用非线性浅水方程推导的非破碎波浪在斜坡上爬高的解析解来验证。本模型还模拟了波浪在斜坡上不同类型的破碎变形过程,并将其波高和平均水位的沿程变化和物理模型实验的结果比较,两者符合良好。 Based on a set of enhanced fully nonlinear Boussinesq equations, a numerical wave model is established in this paper, which features the capability of modeling various wave transformations such as shoaling, breaking and runup on the beach. An eddy viscosity term, which is spatially and temporally localized to the front face of the wave, is added to the momentum equation serving as wave breaking force term to simulate the dissipation of energy due to wave breaking. The moving shoreline is treated with a slot method. Run-up of non-breaking waves is verified against the analytical solution for nonlinear shallow water waves. The model is applied to study various types of wave breaking on the plane sloping beaches. The comparison of computed results comprising the variations of wave height and mean water level along the flume and the experimental data is conducted and their agreement is very good.
出处 《计算力学学报》 EI CAS CSCD 北大核心 2007年第2期203-208,共6页 Chinese Journal of Computational Mechanics
基金 新世纪优秀人才支持计划(NCET-04-0267)资助项目
关键词 Boussinesq模型 波浪破碎 破碎带 浅水 Boussinesq model wave breaking surf zone shallow water
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参考文献20

  • 1ZELT J A.The run-up of nonbreaking and breaking solitary waves[J].Coastal Eng,1991,15:203-246.
  • 2KENNEDY A B,CHEN Q,et al..Boussinesq modeling of wave transformation,breaking and run-up.I:One dimension[J].J Waterway,Port,Coastal Ocean Eng,2000,126 (1):39-47.
  • 3SCHAFFER H A,MADSEN P A,et al.A Bouss-inesq model for waves breaking in shallow water[J].Coastal Eng,1993,20:185-202.
  • 4MADSEN P A,So/rensen O R,et al..Surf zone dynamics simulated by a Boussinesq type model.Part 1.Model description and cross-shore motion of regular waves[J].Coastal Eng,1997,32:255-287.
  • 5SKOTNER C,APELT C J.Application of a Boussinesq model for the computation of breaking waves part 1:Development and verification[J].Ocean Eng,1999,26:905-925.
  • 6So/rensen O R,Schffer H A,et al.Boussinesq-type modelling using an unstructured finite element technique[J].Coastal Eng,2004,50:181-198.
  • 7VEERAMONY J.Modeling the flow in surf zone waves[D].Delaware:University of Delaware,1999.
  • 8李绍武,王尚毅,柴山知也.一种近岸区波浪破碎模型[J].海洋学报,1999,21(1):103-110. 被引量:7
  • 9李绍武,李春颖,谷汉斌,时钟.一种改进的近岸波浪破碎数值模型[J].水科学进展,2005,16(1):36-41. 被引量:13
  • 10KIRBY J T.Boussinesq models and applications to nearshore wave propagation,surf zone processes and wave-induced currents[A].Advances in Coastal Modeling[C].Elsevier,2003:1-41.

二级参考文献24

  • 1陶建华.波浪在岸滩上的爬高和破碎的数学模拟.海洋学报,1984,6(5):692-692.
  • 2Wei G, Kirby J T, Grilli S T, et al. A fully nonlinear Boussinesq model for surface waves. Part 1 : Highly nonlinear unsteady waves[J]. Journal of Fluid Mechanics, 1995, 294. 71 - 92.
  • 3Gobbi M F, Kirby J T. A fourth order Boussinesq-type wave model[A]. Proceedings of the 25th International Conference on Coastal Engineering[C]. New York: ASCE, 1996, 1116- 1129.
  • 4Zou Z L.Higher order Boussinesq equations[J].Ocean Engineering.1999,26:767—792.
  • 5Madsen P A,Bingham H B,Liu H.A new Boussinesq method for fully nonlinear waves from shallow to deep water[J].Joumal of Fluid Mechanics,2002,462:1—30.
  • 6Kobayashi N,Desilva G S.waslon K D.wave transformation and swash zone oscillation on gentle and steep slopes[J].Journal of Geophysical Research.1989,94(C1):951—966.
  • 7Karambas T V, Koutitas C. A breaking wave propagation model based on the Boussinesq equations[J]. Coastal Engineering, 1992, 18:1 - 19.
  • 8Li S, Wang S, Shibayama T. A nearshore wave breaking model[J]. ACTA Oceanologica Sinlca, 1998, 17(1 ):108-118.
  • 9Kennedy A B, Chen Q, Kirby J T. Boussinesq modeling of wave transformation, breaking, and runup. I: 1D[J]. Journal of Waterway, Port,Coastal and Ocean Engineering, 2000, 126( 1 ) : 39 - 47.
  • 10Chen Q, Kirby J T, Dalrymple R A. Boussinesq modeling of wave transformation, breaking, and runup. I: 2D[J]. Journal of Waterway,Port. Coastal and Ocean Engineering, ASCE, 2000, 126(1): 48-56.

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