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溃坝问题的数值仿真和实验(英文) 被引量:6

Numerical Simulation and Experiment on Dam Break Problem
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摘要 In this paper,two novel numerical computation methods are introduced which have been recently developed at Research Institute for Applied Mechanics(RIAM),Kyushu University,for strongly nonlinear wave-body interaction problems,such as ship motions in rough seas and resulting green-water impact on deck.The first method is the CIP-based Cartesian grid method,in which the free surface flow is treated as a multi-phase flow which is solved using a Cartesian grid.The second method is the MPS method,which is a so-called particle method and hence no grid is used.The features and calculation procedures of these numerical methods are described.One validation computation against a newly conducted experiment on a dam break problem,which is also described in this paper,is presented. In this paper, two novel numerical computation methods are introduced which have been recently developed at Research Institute for Applied Mechanics ( R/AM ), Kyushu University, for strongly nonlinear wave-body interaction problems, such as ship motions in rough seas and resulting green-water impact on deck. The first method is the CIP-based Cartesian grid method, in which the free surface flow is treated as a multi-phase flow which is solved using a Cartesian grid. The second method is the MPS method, which is a so-called particle method and hence no grid is used. The features and calculation procedures of these numerical methods are described. One validation computation against a newly conducted experiment on a dam break problem, which is also described in this paper, is presented.
作者 胡长洪 末吉诚
机构地区 Research Institute for Applied Mechanics
出处 《Journal of Marine Science and Application》 2010年第2期109-114,共6页 船舶与海洋工程学报(英文版)
关键词 数值模拟 溃坝 试验 数值计算方法 国际马铃薯中心 网格方法 green 自由表面流 CIP method MPS method darn break experiment
分类号 O35 [理学—流体力学]
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参考文献15

  • 1Hirt CW, Nichols BD (1981). Volume of fluid (VOF) methods for the dynamic of free boundaries. Comput. Phys, 39, 201-225.
  • 2Hu C, Kashiwagi M (2004), A CIP-Based method for numerical simulations of violent free surface flows. Marine Science and Technology, 9(4), 143-157.
  • 3Hu C, Kashiwagi M (2006a). Validation of CIP-Based method for strongly nonlinear wave-body interactions. Proc. 26th Symposium on Naval Hydrodynamics, Rome, 4, 247-258.
  • 4Hu C, Kishev Z, Kashiwagi M, Sueyoshi M, Faltinsen OM (2006b). Application of CIP method for sStrongly nonlinear marine hydrodynamics. Ship Technology Research, 53(2), 74-87.
  • 5Hu C, Kashiwagi M (2607). Numerical and experimental studies on three-dimensional water on deck with a modified wigley model. Proc. 9th Numerical Ship Hydrodynamics, Ann Arbor, Michigan, 1, 159-169.
  • 6Hu C, Kashiwagi M, Sueyoshi M (2008). Improvement towards high-resolution computation on strongly nonlinear wave-induced motions of an actual ship. Proc. of 27th Symposium on Naval Hydrodynamics, Soeul, Korea, 5-10, 525-534.
  • 7Hu C, Kashiwagi M (2009). Two-dimensional numerical simulation and experiment on strongly nonlinear wave-body interactions. Marine Science and Technology, 9, 143-157.
  • 8Kishev Z, Hu C, Kashiwagi M (2006). Numerical simulation of violent sloshing by a CIP-Based method. Marine Science and Technology, 11, (2), 111-122.
  • 9Koshizuka S, Oka Y (1996). Moving-Particle Semi-Implicit method for fragmentation of incompressible fluid. Nuclear Science and Engineering, 123,421-434.
  • 10Martin JC, Moyce WJ (1952). An experimental study of collapse of liquid columns on a rigid horizontal plane. Philos. Trans. R. Soc.. London Ser. A, 244, 312-324.

同被引文献56

  • 1Koshizuka S, Oka Y. Moving-particle semi-implicit method for fragmentation of incompressible fluid [ J ]. Nuclear Science and Engineering, 1996,123 ( 3 ) :421 - 434.
  • 2Koshizuka S, Tamako H, Oka Y. A particle method for incompressible viscous flow with fluid fragmentation [ J ]. Computational Fluid Dynamics Journal, 1995,4 ( 1 ) :29 - 46.
  • 3Shakibaeinia A, Jin Y C. A weakly compressible MPS method for modeling of open-boundary free-surface flow [ J ]. International Journal for Numerical Methods in Fluids,2010,63(10) :1208 - 1232.
  • 4Koshizuka S, Nobe A, Oka Y. Numerical analysis of breaking waves using the moving particle semi-implicit method [ J ]. International Journal for Numerical Methods in Fluids, 1998,26 (7) :751 - 769.
  • 5Gotoh H, Sakai T. Key issues in the particle method for computation of wave breaking [ J ]. Coastal Engineering, 2006,53(2) :171 - 179.
  • 6Shibata K, Koshizuka S, Sakai M, et al. Lagrangian simulations of ship-wave interactions in rough seas [ J ]. Ocean Engineering ,2012, 42 : 13 - 25.
  • 7Shibata K, Koshizuka S. Numerical analysis of shipping water impact on a deck using a particle method [ J ]. O- cean Engineering,2007,34 ( 9 ) :585 - 593.
  • 8Shibata K, Koshizuka S, Tanizawa K. Three-dimensional numerical analysis of shipping water onto a moving ship using a particle method[J]. Journal of Marine Science and Technology,2009,14 (2) :214 - 227.
  • 9Khayyer A, Gotoh H. Enhancement of stability and accuracy of the moving particle semi-implicit method [ J ]. Journal of Computational Physics, 2011,230 ( 8 ) : 3093 - 3118.
  • 10Martin J C, Moyce W J. An experimental study of the collapse of liquid columns on a rigid horizontal plane [J]. R Soc, 1952, 244(882) :312 -324.

引证文献6

二级引证文献3

Journal of Marine Science and Application
2010年 第2期

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