MPM simulations of dam-break floods
发布时间:2018-10-20 14:34
【摘要】:Owing to its ability of modelling large deformations and the ease of dealing with moving boundary conditions,the material point method is gaining popularity in geotechnical engineering applications.In this paper,this promising Lagrangian method is applied to hydrodynamic problems to further explore its potential.The collapse of water columns with different initial aspect ratios is simulated by the material point method.In order to test the accuracy and stability of the material point method,simulations are first validated using experimental data and results of mature numerical models.Then,the model is used to ascertain the critical aspect ratio for the widely-used shallow water equations to give satisfactory approximation.From the comparisons between the simulations based on the material point method and the shallow water equations,the critical aspect ratio for the suitable use of the shallow water equations is found to be 1.
[Abstract]:Owing to its ability of modelling large deformations and the ease of dealing with moving boundary conditions,the material point method is gaining popularity in geotechnical engineering applications.In this paper,this promising Lagrangian method is applied to hydrodynamic problems to further explore its potential.The collapse of water columns with different initial aspect ratios is simulated by the material point method.In order to test the accuracy and stability of the material point method,simulations are first validated using experimental data and results of mature numerical models.Then,the model is used to ascertain the critical aspect ratio for the widely-used shallow water equations to give satisfactory approximation.From the comparisons between the simulations based on the material point method and the shallow water equations,the critical aspect ratio for the suitable use of the shallow water equations is found to be 1.
【作者单位】: Department
【基金】:supported by the European Union Seventh Framework Program(FP7/2007-2013) under grant agreement No.PIAG-GA-2012-324522 “MPM-DREDGE”
【分类号】:TV122.4
本文编号:2283453
[Abstract]:Owing to its ability of modelling large deformations and the ease of dealing with moving boundary conditions,the material point method is gaining popularity in geotechnical engineering applications.In this paper,this promising Lagrangian method is applied to hydrodynamic problems to further explore its potential.The collapse of water columns with different initial aspect ratios is simulated by the material point method.In order to test the accuracy and stability of the material point method,simulations are first validated using experimental data and results of mature numerical models.Then,the model is used to ascertain the critical aspect ratio for the widely-used shallow water equations to give satisfactory approximation.From the comparisons between the simulations based on the material point method and the shallow water equations,the critical aspect ratio for the suitable use of the shallow water equations is found to be 1.
【作者单位】: Department
【基金】:supported by the European Union Seventh Framework Program(FP7/2007-2013) under grant agreement No.PIAG-GA-2012-324522 “MPM-DREDGE”
【分类号】:TV122.4
【相似文献】
相关期刊论文 前4条
1 ;Nonlinear Effect of Wave Propagation in Shallow Water[J];China Ocean Engineering;1999年01期
2 徐福敏 ,严以新 ,张长宽 ,宋志尧 ,茅丽华;Wave Numerical Model for Shallow Water[J];China Ocean Engineering;2000年02期
3 Sameh A. KANTOUSH;Erik BOLLAERT;Anton J. SCHLEISS;;Experimental and numerical modelling of sedimentation in a rectangular shallow basin[J];International Journal of Sediment Research;2008年03期
4 ;[J];;年期
相关会议论文 前1条
1 Andrew YT Leung;;A New Approach on Simulating Two Dimensional Shallow-Water Flow with Uneven Bottom[A];第七届全国水动力学学术会议暨第十九届全国水动力学研讨会文集(下册)[C];2005年
,本文编号:2283453
本文链接:https://www.wllwen.com/kejilunwen/shuiwenshuili/2283453.html
