Coupled flood and sediment transport modelling with adaptive mesh refinement 被引量：5

Coupled flood and sediment transport modelling with adaptive mesh refinement

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摘要 Coupled flood and sediment transport modelling in large-scale domains has for long been hindered by the high computational cost.Adaptive mesh refinement is one of the viable ways to solving this problem without degrading the accuracy.This goal can be accomplished through mesh adaptation,e.g.,mesh coarsening and refining based on the dynamic regime of the flow and sediment transport along with bed evolution.However,previous studies in this regard have been limited to cases either without involving sediment transport or featuring flow-sediment-bed decoupling and the assumption of sediment transport capacity,which are not generally justified.Here,a coupled hydrodynamic and non-capacity sediment transport model is developed on adaptive non-uniform rectangular mesh.The proposed model is validated against experimental tests and numerical results based on the fixed meshes.It is demonstrated that the proposed model can properly capture shock waves,resolve the wetting/drying transition and reproduce morphological evolution.Compared with models based on the fixed meshes,the proposed model features great advantage in computational efficiency and holds promise for wide applications.

作者 HUANG Wei CAO ZhiXian PENDER Gareth LIU QingQuan CARLING Paul

机构地区 State Key Laboratory of Water Resources and Hydropower Engineering Science Institute for Infrastructure and Environment Institute of Mechanics Geography & Environment

出处《Science China(Technological Sciences)》 SCIE EI CAS CSCD 2015年第8期1425-1438,共14页 中国科学（技术科学英文版）

基金 supported by the National Natural Science Foundation of China(Grant Nos.11172217,51279144&11432015)

关键词 shallow water flow sediment transport adaptive mesh 网格自适应输沙模型网格细化洪水泥沙输运计算成本动态变化网格粗化

分类号 TV122 [水利工程—水文学及水资源] TV14 [水利工程—水力学及河流动力学]

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参考文献2

1JI ChunNing,ANTE Munjiza,ELDAD Avital,XU Dong,JOHN Williams.Numerical investigation of particle saltation in the bed-load regime[J].Science China(Technological Sciences),2014,57(8):1500-1511. 被引量：10
2ZHANG Lei,ZHONG DeYu,WU BaoSheng.Particle inertia effect on sediment dispersion in turbulent open-channel flows[J].Science China(Technological Sciences),2014,57(10):1977-1987. 被引量：5

二级参考文献38

1曹志先,魏良琰,谢鉴衡.明渠挟沙水流的两相流模式[J].水利学报,1995,27(4):1-12. 被引量：29
2Nino Y, García M. Gravel saltation: 2. Modeling. Water Resour Res, 1994, 30: 1915-1924.
3Bialik R J, Nikora V I, Rowinski P M, et al. A numerical study of turbulence influence on saltating grains. In: Dittrich A, Koll K, Aberle J Geisenhainer P, eds. Proceedings of International Conference on Fluvial Hydraulics (River Flow 2010), Braunschweig, Germany, 2010. 105-112.
4van Rijn L C. Sediment transport, part I: bed load transport. J Hydraul Eng-ASCE, 1984, 110: 1431-1456.
5Abbott J E, Francis J R D. Saltation and suspension trajectories of solid grains in a water stream. Phil Trans R Soc Lond A, 1977, 284: 225-254.
6Nino Y, García M H. Experiments on particle-turbulence interactions in the near-wall region of an open channel flow: implications for sediment transport. J Fluid Mech, 1996, 326: 285-319.
7Nino Y, García M H. Experiments on saltation of sand in water. J Hydraul Eng-ASCE, 1998, 124: 1014-1025.
8Nino Y, García M, Ayala L. Gravel saltation: 1. Experiments. Water Resour Res, 1994, 30: 1907-1914.
9Lee H Y, Hsu I S. Investigation of saltating particle motions. J Hydraul Eng-ASCE, 1994, 120: 831-845.
10Lee H Y, Chen Y H, You J Y, et al. Investigations of continuous bed load saltating process. J Hydraul Eng-ASCE, 2000, 126: 691-700.

共引文献13

1WANG XiJun,ZONG Zhi,ZHAO Yong,ZOU Li.A numerical study of passenger side airbag deployment based on arbitrary Lagrangian-eulerian method[J].Science China(Technological Sciences),2015,58(3):397-404. 被引量：4
2DING Yun,XIAO Yang,ZHONG DeYu.Numerical simulation of pollution process due to resuspension of bed materials adsorbing pollutants in alluvial rivers[J].Science China(Technological Sciences),2015,58(7):1280-1288. 被引量：2
3及春宁,刘丹青,许栋.基于颗粒离散元的沙纹演变大涡模拟研究[J].力学学报,2015,47(4):613-623. 被引量：3
4JIANG WenShan,CHANG JinShi.Effect of total phosphorous pollution on cavitation pressure characteristics of working water used in turbines[J].Science China(Technological Sciences),2016,59(4):586-591. 被引量：1
5苏东升,张庆河,孙建军,李明星.基于CFD-DEM耦合方法的近床面水流泥沙运动模拟研究[J].水道港口,2016,37(3):224-230. 被引量：6
6DING Yun,LI ZuiSen,ZHONG DeYu,KANG YanPing.Coupling mechanism of mathematical models for sediment transport based on characteristic theory[J].Science China(Technological Sciences),2016,59(11):1696-1706. 被引量：1
7张磊,关见朝,王友胜,胡智丹,王协康.悬移质泥沙输移扩散方程适用条件的讨论[J].水利学报,2018,49(6):694-702. 被引量：6
8Dong XU,Chunning JI,A.MUNJIZA,E.KALIVIOTIS,E.AVITAL,J.WILLAMS.Study on the packed volume and the void ratio of idealized human red blood cells using a ?nite-discrete element method[J].Applied Mathematics and Mechanics(English Edition),2019,40(5):737-750. 被引量：1
9MA XiaoTeng,DENG YuCheng,CUI Zheng.Transient heat transfer analysis in packed beds: Entropy generation model and multi-objective optimization[J].Science China(Technological Sciences),2019,62(11):1999-2008. 被引量：2
10DING Yun,LI ZuiSen,SHI YongZhong,ZHONG DeYu.Analytical solution to one-dimensional mathematical model of flow and morphological evolution in open channels[J].Science China(Technological Sciences),2020,63(12):2606-2616.

同被引文献47

1向代锋,程磊,徐宗学,陈浩,李敏.基于局部和全局方法的SWMM敏感参数识别[J].水力发电学报,2020,39(11):71-79. 被引量：19
2潘佳佳,曹志先,王协康,曹叔尤.暴雨山洪水动力学模型及其简化模型的比较研究[J].四川大学学报（工程科学版）,2012,44(S1):77-82. 被引量：15
3江恩惠,赵连军,韦直林.黄河下游洪峰增值机理与验证[J].水利学报,2006,37(12):1454-1459. 被引量：26
4韦直林,赵良奎,付小平.黄河泥沙数学模型研究[J].武汉水利电力大学学报,1997,30(5):21-25. 被引量：43
5杜浩,班璇,张辉,危起伟,陈大庆.天然河道中鱼类对水深、流速选择特性的初步观测——以长江江口至涴市段为例[J].长江科学院院报,2010,27(10):70-74. 被引量：37
6张焜,张洪江,程金花,张君玉,孙龙,马西军.重庆四面山5种森林类型林冠截留影响因素浅析[J].西北农林科技大学学报（自然科学版）,2011,39(11):173-179. 被引量：13
7廖慕科.多普勒雷达强降水预警在山洪灾害预警中的应用[J].农业灾害研究,2012,2(4):84-88. 被引量：8
8钟金鑫,张倩,李小荣,康斌.不同流速对鱇(鱼良)白鱼游泳行为的影响[J].生态学杂志,2013,32(3):655-660. 被引量：22
9寇小华,王文,郑国权.土壤水分入渗模型的研究方法综述[J].亚热带水土保持,2013,25(3):53-55. 被引量：16
10BAI YuChuan,JI ZiQing,ZHANG MingJin.A type of dynamic mechanism of river hydraulic geometry[J].Science China(Technological Sciences),2014,57(4):847-855. 被引量：1

引证文献5

1CAO Zhi-xian,HU Peng,PENDER Gareth,LIU Huai-han.Non-capacity transport of non-uniform bed load sediment in alluvial rivers[J].Journal of Mountain Science,2016,13(3):377-396. 被引量：7
2FANG Hong Wei,DAI Dong Chen,LI Song Heng,HE Guo Jian,HUANG Lei,PENG Wen Qi.Kinetic theory for aquatic animal distribution simulation[J].Science China(Technological Sciences),2016,59(12):1856-1866.
3程亦菲,夏军强,周美蓉,娄书建,李东阳.一维水沙耦合模型参数敏感性分析——以2020年黄河下游洪水演进为例[J].水力发电学报,2022,41(12):100-110. 被引量：4
4黄卫,岳志远,孙楠,马美红.暴雨山洪水动力学模拟研究进展[J].水文,2023,43(4):8-14. 被引量：2
5黄卫,陈端,杨青远,黄艳.数字孪生中水动力学模型关键技术研究与应用进展[J].长江科学院院报,2024,41(8):197-206. 被引量：1

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1XIA Chun-chen,LI Ji,CAO Zhi-xian,LIU Qing-quan,HU Kai-heng.A quasi single-phase model for debris flows and its comparison with a two-phase model[J].Journal of Mountain Science,2018,15(5):1071-1089.
2Zeinab Khorrami,Mohammad Ali Banihashemin.Numerical simulation of sedimentation process in reservoirs and development of a non-coupled algorithm to improve long-term modeling[J].International Journal of Sediment Research,2019,34(3):279-294.
3张根广,周双,王愉乐,刘余.泥沙输移问题研究进展与展望[J].水利与建筑工程学报,2019,17(4):8-15. 被引量：2
4钟启明,沈光泽.混凝土面板砂砾石坝漫顶溃坝模型研究[J].岩土工程学报,2019,41(9):1591-1598. 被引量：3
5Hossein Mahdizadeh,Soroosh Sharifi.Coupled and splitting bedload sediment transport models based on a modified flux-wave approach[J].International Journal of Sediment Research,2021,36(1):38-49.
6王传贵,梅雪梅,张国军,任正龑,张晓明,李鹏,赵阳.1989~2019年黄河宁夏段支流水沙变化规律及其驱动因素[J].地球科学与环境学报,2023,45(4):844-856. 被引量：1
7张小雅,任春平,杨帆.汾河二坝—义棠段液压坝群对河道冲淤变化影响的数值研究[J].长江科学院院报,2023,40(8):16-23. 被引量：1
8张修杰,陈明辉,张伟锋,韦未.改进溃口宽度经验公式在洪水模拟中的研究[J].中国农村水利水电,2023(10):23-29. 被引量：1
9胡智超,朱沈鸣,李建雄,许嘉豪,王绍斌,夏春晨.钱塘江河口盐官段主汛期前含沙量特性研究[J].水利水运工程学报,2023(6):67-74.
10张晓雷,徐志恒,杨晨,毕峥峥.床沙级配调整对黄河下游洪水演进的影响[J].水力发电学报,2024,43(3):14-23.

1李煜.东汽新基地竣工投产[J].东方汽轮机,2010(2):32-32.
2王宗敏,周鸿钧,耿惠.三维有限元局部网格细化边界条件插值计算与数据自动采集[J].郑州工学院学报,1992,13(4):26-32. 被引量：1
3郭福厚.绕阳河上游地区输沙模型的推求[J].东北水利水电,2006,24(3):41-42.
4DISCUSSION ON “3D CFD MODELLING OF WATER AND SEDIMENT FLOW IN A HYDROPOWER RESERVOIR”[J].International Journal of Sediment Research,1999,14(1):29-31.
5刘峰.河流泥沙模型输沙计算中对泥沙级配的考虑[J].广东水电科技,1995(3):14-17. 被引量：1
6刘冠廷.第一次坐飞机[J].小学生作文,2015,0(9):51-54.
7张明明,刘晓波,丁伟明.网格细化小波聚类在航空发动机转子系统故障诊断中的应用[J].机床与液压,2016,44(11):163-167. 被引量：2
8ZHANG MingLiang,XU YuanYuan,HAO ZiNing,QIAO Yang.Integrating 1D and 2D hydrodynamic,sediment transport model for dam-break flow using finite volume method[J].Science China(Physics,Mechanics & Astronomy),2014,57(4):774-783. 被引量：3
9戚蓝,黄君宝,黄晓东.ANSYS软件在有垂直防渗墙的堤坝及地基渗流计算中的应用[J].长沙交通学院学报,2005,21(3):48-51. 被引量：6
10尹立生.张峰水库库区泥沙淤积预测[J].科技情报开发与经济,2004,14(10):197-199. 被引量：1

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