Numerical Simulation of Irregular Wave Overtopping Against A Smooth Sea Dike 被引量：5

Numerical Simulation of Irregular Wave Overtopping Against A Smooth Sea Dike

下载PDF

导出

摘要 Based on the filtered Navier-Stokes equations and Smagorinsky turbulence model, a numerical wave flume is developed to investigate the overtopping process of irregular waves over smooth sea dikes. Simulations of fully nonlinear standing wave and regular wave＇s run-up on a sea dike are carried out to validate the implementation of the numerical wave flume with wave generation and absorbing modules. To model stationary ergodic stochastic processes, several cases with different random seeds are computed for each specified irregular wave spectrum. It turns out that the statistical mean overtopping discharge shows good agreement with empirical formulas, other numerical results and experimental data. Based on the filtered Navier-Stokes equations and Smagorinsky turbulence model, a numerical wave flume is developed to investigate the overtopping process of irregular waves over smooth sea dikes. Simulations of fully nonlinear standing wave and regular wave＇s run-up on a sea dike are carried out to validate the implementation of the numerical wave flume with wave generation and absorbing modules. To model stationary ergodic stochastic processes, several cases with different random seeds are computed for each specified irregular wave spectrum. It turns out that the statistical mean overtopping discharge shows good agreement with empirical formulas, other numerical results and experimental data.

作者郭晓宇王本龙刘桦

机构地区 Department of Engineering Mechanics Key Laboratory of Hydrodynamics of MOE State Key Laboratory of Ocean Engineering

出处《China Ocean Engineering》 SCIE EI 2012年第1期153-166,共14页 中国海洋工程（英文版）

基金 supported by the National Natural Science Foundation of China (Grant No. 10972138) the Natural Science Foundation of Shanghai Municipality (Grant No. 11ZR1418200) Key Project of Science and Technology Commission of Shanghai Municipality (Grant No. 09231203402) Key Doctoral Programme Foundation of Shanghai Municipality (Grant No. B206)

关键词 overtopping discharge irregular wave numerical wave flume Navier-Stokes equations overtopping discharge irregular wave numerical wave flume Navier-Stokes equations

分类号 P731.22 [天文地球—海洋科学] U656.2 [交通运输工程—港口、海岸及近海工程]

引文网络
相关文献

参考文献6

1周勤俊,王本龙,兰雅梅,刘桦.海堤越浪的数值模拟[J].力学季刊,2005,26(4):629-633. 被引量：80
2宁德志,滕斌,周斌珍,刘珍.源造波法在三维完全非线性数值波浪水槽中的应用[J].大连海事大学学报,2008,34(2):1-5. 被引量：9
3LIANG Xiu-feng YANG Jian-min LI Jun XIAO Long-fei LI Xin.NUMERICAL SIMULATION OF IRREGULAR WAVE-SIMULATING IRREGULAR WAVE TRAIN[J].Journal of Hydrodynamics,2010,22(4):537-545. 被引量：6
4LU Yong-jin,LIU Hua,WU Wei,ZHANG Jiu-shan.NUMERICAL SIMULATION OF TWO-DIMENSIONAL OVERTOPPING AGAINST SEAWALLS ARMORED WITH ARTIFICIAL UNITS IN REGULAR WAVES[J].Journal of Hydrodynamics,2007,19(3):322-329. 被引量：17
5王本龙,刘桦.一种适用于非均匀地形的高阶Boussinesq水波模型[J].应用数学和力学,2005,26(6):714-722. 被引量：39
6李本霞,俞聿修,张宁川.数值二维随机波浪水槽的建立和应用[J].海洋通报,2004,23(5):1-9. 被引量：7

二级参考文献52

1张晓兔,滕斌,宁德志.Simulation of Fully Nonlinear 3-D Numerical Wave Tank[J].海洋工程：英文版,2004,18(1):59-68. 被引量：4
2贺朝敖,任佐皋.带胸墙斜坡堤越波量的试验研究[J].海洋工程,1995,13(2):62-70. 被引量：18
3王永学.无反射造波数值波浪水槽[J].水动力学研究与进展（A辑）,1994,9(2):205-214. 被引量：58
4王本龙,刘桦.一种适用于非均匀地形的高阶Boussinesq水波模型[J].应用数学和力学,2005,26(6):714-722. 被引量：39
5谢其军,刘桦,闫磊.基于高阶边界元的三维数值波浪港池——波浪破碎的模拟[J].海洋工程,2005,23(4):21-26. 被引量：5
6周勤俊,王本龙,兰雅梅,刘桦.海堤越浪的数值模拟[J].力学季刊,2005,26(4):629-633. 被引量：80
7ZHANG Jing-xin LIU Hua XUE Lei-ping.A VERTICAL 2D MATHEMATICAL MODEL FOR HYDRODYNAMIC FLOWS WITH FREE SURFACE IN σ COORDINATE[J].Journal of Hydrodynamics,2006,18(1):82-90. 被引量：15
8王大国,邹志利,唐春安.三维完全非线性波浪水槽的数值模拟[J].海洋学报,2006,28(4):138-144. 被引量：9
9梁修锋,杨建民,李欣,于洋.FPSO甲板上浪的数值模拟[J].水动力学研究与进展（A辑）,2007,22(2):229-236. 被引量：28
10Kristensen M K. Boussinesq equations and wave-current interaction[ D ]. Master ' s thesis. International Research Center for Computed Hydrodynamics (ICCH) at Danish Hydraulic Institute, Denmark and ISVA,Technical University of Denmark, 1995,130-142. 被引量：1

共引文献134

1王鹏,孙大鹏.基于FLUENT的海堤越浪数值模拟[J].中国水运（下半月）,2011,11(7):73-75. 被引量：9
2王桂兰,史宏达,潘新颖,李霈.波浪作用下填筑式进海路基于ADINA的有限元分析[J].海岸工程,2013,32(3):11-19.
3李本霞,余锡平.潜堤上波浪分裂现象的数值分析[J].清华大学学报（自然科学版）,2004,44(12):1656-1659. 被引量：1
4王本龙,刘桦.关于采用高阶Boussinesq方程求解波浪散射问题的注记[J].力学季刊,2005,26(3):346-353.
5周勤俊,王本龙,兰雅梅,刘桦.海堤越浪的数值模拟[J].力学季刊,2005,26(4):629-633. 被引量：80
6陈谦,吴卫,卢永金,刘桦.离岸式潜堤对海堤越浪量影响的实验研究[J].力学季刊,2006,27(2):262-266. 被引量：9
7张九山,吴卫,王本龙,刘桦,卢永金.带异形块体海堤越浪的数值模拟[J].水动力学研究与进展（A辑）,2006,21(5):572-578. 被引量：21
8杜小弢,吴卫,龚凯,刘桦.二维滑坡涌浪的SPH方法数值模拟[J].水动力学研究与进展（A辑）,2006,21(5):579-586. 被引量：25
9李凌,林兆伟,尤云祥,缪国平.基于动量源方法的黏性流数值波浪水槽[J].水动力学研究与进展（A辑）,2007,22(1):76-82. 被引量：31
10王本龙,何刚强,王瑟澜,刘桦.苏州河河口水闸垂直二维流动精细数值模拟[J].水利水电科技进展,2007,27(A01):48-51. 被引量：3

同被引文献20

1Chaiyuth CHINNARASRI,Tawatchai TINGSANCHALI,Sutat WEESAKUL,Somchai WONGWISES.FLOW PATTERNS AND DAMAGE OF DIKE OVERTOPPING[J].International Journal of Sediment Research,2003,18(4):301-309. 被引量：14
2刘加海,杨永全,张洪雨,李刚.二维数值水槽波浪生成过程及波浪形态分析[J].四川大学学报（工程科学版）,2004,36(6):28-31. 被引量：26
3王本龙,刘桦.一种适用于非均匀地形的高阶Boussinesq水波模型[J].应用数学和力学,2005,26(6):714-722. 被引量：39
4周勤俊,王本龙,兰雅梅,刘桦.海堤越浪的数值模拟[J].力学季刊,2005,26(4):629-633. 被引量：80
5LU Yong-jin,LIU Hua,WU Wei,ZHANG Jiu-shan.NUMERICAL SIMULATION OF TWO-DIMENSIONAL OVERTOPPING AGAINST SEAWALLS ARMORED WITH ARTIFICIAL UNITS IN REGULAR WAVES[J].Journal of Hydrodynamics,2007,19(3):322-329. 被引量：17
6GERALD C J,ZANG J. Using the rasInterFoam CFDmodel for non-linear wave interaction with a cyli-nder[C]. Proceedings of the 20th International Offshoreand Polar Engineering Conference,Beijing,China,2010,418-423. 被引量：1
7Li Y,Lin M. Regular and irregular wave impacts onfloating body[J],Ocean Engineering,2012,42:93-101. 被引量：1
8MOSTAFA A A. Numerical wave generation in Open-FOAM[D]. Chalmers University of Technology,Gote-borg,Sweden,2010. 被引量：1
9MADSEN P A,BINGHAM H B,LIU H. A new Bou-ssinesq method for fully nonlinear waves from shallowto deep water[J],Journal of Fluid Mechanics,2002,462(1):1-30. 被引量：1
10查晶晶,万德成.用OpenFOAM实现数值水池造波和消波[J].海洋工程,2011,29(3):1-12. 被引量：37

引证文献5

1曾婧扬,吴卫,刘桦.孤立波斜坡堤堤顶及后坡越浪流数值分析[J].力学季刊,2013,34(2):181-190. 被引量：9
2唐耀,邹早建.二维黏性流数值波浪水池的开发与验证[J].水动力学研究与进展（A辑）,2013,28(5):538-544. 被引量：3
3徐刚,卢通,赵丽刚,牛贵超.数值水池中水波衰减特性分析[J].船舶工程,2019,41(S2):9-13. 被引量：6
4FAN Xiang,ZHANG Jing-xin,LIU Hua.Numerical Investigation of Run-ups on Cylinder in Steep Regular Wave[J].China Ocean Engineering,2019,33(5):601-607. 被引量：2
5于通顺,赵学文,唐俊辉,张振宇,陈星羽.防淤积型透空式防波堤波浪爬高试验及预测研究[J].天津大学学报（自然科学与工程技术版）,2023,56(8):831-839.

二级引证文献20

1张金牛,吴卫,刘桦,房詠柳.孤立波作用下斜坡堤越浪量的实验研究[J].水动力学研究与进展（A辑）,2014,29(6):656-662. 被引量：12
2李晖,何宏舟,杨绍辉.数值波浪水槽的造波及消波方法[J].集美大学学报（自然科学版）,2015,20(6):457-462. 被引量：5
3孟庆利.沿海桥梁地震海啸作用机理与对策试验研究[J].土木工程学报,2016,49(1):86-95. 被引量：2
4李雪艳,王庆.斜坡堤胸墙结构反浪效果的试验研究[J].海岸工程,2015,34(4):33-40.
5李雪艳,王庆,范庆来,王岗.不同型式斜坡堤弧形胸墙波浪压力的试验研究[J].海洋通报,2016,35(6):702-707. 被引量：1
6封星,吴宛青,杨晓.恒定水深船舶数值波流水池构造研究[J].推进技术,2018,39(8):1880-1888.
7YAO Yu,JIA Mei-jun,MAO Da-wei,DENG Zheng-zhi,LIU Xiao-jian.A Numerical Investigation of the Reduction of Solitary Wave Runup by A Row of Vertical Slotted Piles[J].China Ocean Engineering,2020,34(1):10-20.
8董志,关大玮,苗青,黄元中,张从联.复式海堤上规则波和不规则波越浪数值模拟研究[J].中国农村水利水电,2020(3):112-118. 被引量：4
9魏斐斐,熊芳杰,任兴月.孤立波作用下斜坡堤越浪量的数值模拟[J].科学技术与工程,2021,21(16):6882-6888. 被引量：2
10屈科,李凯伦,蒋昌波,邓斌,刘铁威,蓝港芸.基于非静压模型类海啸波作用下海堤越浪特性[J].广东海洋大学学报,2021,41(4):58-69.

1LIN Ting-Chieh,HWANG Kao-Shu,HSIAO Shih-Chun,YANG Ray-Yeng.AN EXPERIMENTAL OBSERVATION OF A SOLITARY WAVE IMPINGE-MENT,RUN-UP AND OVERTOPPING ON A SEAWALL[J].Journal of Hydrodynamics,2012,24(1):76-85. 被引量：7
2林振山,邓自旺,刘式达.THE SIMULATION OF THE RELATION BETWEEN FRACTAL DIMENSION AND THE SPECTRUM OF TURBULENCE[J].Acta meteorologica Sinica,1994,8(4):474-477.
3任冰,王永学.Impact Pressure of Incident Regular Waves and Irregular Waves on the Subface of Open-Piled Structures[J].海洋工程：英文版,2004,18(1):35-46. 被引量：1
4陈国平,严士常,周益人.Prediction on Irregular Wave Run-up and Overtopping[J].China Ocean Engineering,2010,24(3):481-498.
5冯卫兵,潘丽红,洪广文.Mach Effect of Oblique Nonlinear Irregular Waves Interacting with Vertical Walls[J].海洋工程：英文版,2004,18(2):299-306. 被引量：1
6陈绍华.GLOBAL EXISTENCE FOR THE EVOLUTION EQUATIONS WITH FULLY NONLINEAR PERTURBATION[J].Chinese Science Bulletin,1988,33(22):1849-1851.
7Chuan Qiang CHEN,Bo Wen HU.A Microscopic Convexity Principle for Spacetime Convex Solutions of Fully Nonlinear Parabolic Equations[J].Acta Mathematica Sinica,English Series,2013,29(4):651-674. 被引量：2
8胡必锦.CRITICAL STOPPING TIMES AND SEMIMARTINGALESOF STOCHASTIC PROCESSES[J].Acta Mathematica Scientia,1994,14(2):167-173.
9Rajnikant Makwana,S. Mukherjee,王建松,陈志强.New empirical formula for(γ, n) reaction cross section near GDR peak for elements with Z ≥ 60[J].Chinese Physics C,2017,41(4):94-107.
10Wan De cheng Shanghai Institute of Applied Mathematics and Mechanics, Shanghai University, Shanghai 200072, P.R.China.NUMERICAL SIMULATIONS OF NONLINEAR WAVES OVERTOPPING AN OBSTRUCTION[J].Journal of Hydrodynamics,1999,11(4):104-109. 被引量：1

China Ocean Engineering

2012年第1期

浏览历史

内容加载中请稍等...