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许栋水力学及河流研究所
个人简介:
姓名
许栋
性别
男
出生年月
1980年8月
职称
教授
毕业学校
天津大学
专业
水力学及河流动力学
学位
博士
联系电话
15122406287
电子邮件
xudong@hhu.edu.cn
研究方向
主要从事水力学及河流动力学领域的研究,具体研究方向为:
(1)泥沙运动力学
(2)水沙数值模拟
(3)洪水仿真模拟与智慧水利
(4)计算流体力学与并行计算
主要获奖情况
教学:
(1)全国高校教师教学创新大赛天津赛区,二等奖,2021
(2)高等学校水利类专业教学成果,二等奖,2020
(3)校级优秀硕士论文指导教师,2020、2022
(4)全国水利工程专业学位研究生教育先进个人,2019
(5)校级“我心目中的好导师”称号,2016
科研:
(1)中国航海学会科技进步奖,二等奖,2022
(2)中国航海学会科技进步奖,二等奖,2020
(3)中国造船工程学会科学技术奖,一等奖,2017
(4)国家超级计算“天河之星”优秀应用奖,2016
(5)国际会议优秀论文奖(Best Paper Awards),2016
主要成果
主持欧盟玛丽居里基金1项、国家自然科学基金项目4项(含1项联合基金)、国家重点研发计划2项(专题负责)、省部级及其他科研课题20余项。在水沙数值模拟及并行计算、泥沙运动机理、植被-水流耦合作用等方面发表论文100余篇,出版专著1部,授权专利20余项,计算机软件著作权10余项。
代表性论著:
[1]BX. Zhang, D. Xu, B. Zhang, C. Ji, A. Munjiza and J. Williams (2020). "Numerical investigation on the incipient motion of non-spherical sediment particles in bedload regime of open channel flows." Computational Particle Mechanics.
[2]Xu, D., C. N. Ji, A. Munjiza, E. Kaliviotis, E. Avital and J. Williams (2019). "Study on the packed volume-to-void ratio of idealized human red blood cells using a finite-discrete element method." Applied Mathematics and Mechanics-English Edition 40(5): 737-750.
[3]Ji, C. N., Y. T. Cui, D. Xu, X. X. Yang and N. Srinil (2019). "Vortex-induced vibrations of dual-step cylinders with different diameter ratios in laminar flows." Physics of Fluids 31(7).
[4]Wang, J. S., H. B. Liu, D. Xu, Z. H. Chen and K. J. Ma (2019). "Modeling snowdrift on roofs using Immersed Boundary Method and wind tunnel test." Building and Environment 160.
[5]Xu, Dong, Ji, Chunning, Bai, Yuchuan, Song, Xiaolong. Three-dimensional numerical investigation on the influence of geometric shape on flow in river bends[J]. Journal Of Hydroinformatics, 2017, 19(5): 666-685
[6]Liu, X, Ji, CN,Xu, XL, Xu, D,Williams, JJR. Distribution characteristics of inertial sediment particles in the turbulent boundary layer of an open channel flow determined using Voronoi analysis[J]. INTERNATIONAL JOURNAL OF SEDIMENT RESEARCH, 2017, 32(3):401-409
[7]Xu, Dong, Bai, Yuchuan,Ji, Chunning, Williams, John,Experimental study of the density influence on the incipient motion and erosion modes of muds in unidirectional flows: the case of Huangmaohai Estuary, Ocean Dynamics, 2015.2.01, 65(2):187-201(
[8]Xu, Dong, Kaliviotis, Efstathios, Munjiza, Ante, Avital, Eldad, Ji, Chunning, Williams, John, Large scale simulation of red blood cell aggregation in shear flows, Journal of Biomechanics, 2013.7.26, 46(11):1810-1817
[9]Xu, Dong, Bai, Yuchuan, Experimental study on the bed topography evolution in alluvial meandering rivers with various sinuousnesses, JOURNAL OF HYDRO-ENVIRONMENT RESEARCH, 2013.6.01, 7(2):92-102
[10]Xu, Dong, Bai, Yuchuan, Ma, Jianmin, Tan, Yan, Numerical investigation of long-term planform dynamics and stability of river meandering on fluvial floodplains, Geomorphology, 2011.9.15, 132(3-4):195-207
[11]Xu, D., C. N. Ji, E. Avital, E. Kaliviotis, A. Munjiza and J. Williams. An Investigation on the Aggregation and Rheodynamics of Human Red Blood Cells Using High Performance Computations. Scientifica, 2017, 2017-4-4
[12]Wu, Yan, Xu, Haijue, Xu, Dong*, Bai, Yuchuan, Incipient Velocity of non-uniform sediment in sloping river bends, Transactions of Tianjin University, 2014.01.01, 20(3):163-167
[13]Dong Xu, A. Munjiza, J. J. R. Williams, Numerical simulation of interaction between laminar flow and elastic sheet, Transactions of Tianjin University, 2012.2.1, 18(2):85-89
[14]Chen, W. L., C. N. Ji, M. M. Alam, J. Williams and D. Xu (2020). "Numerical simulations of flow past three circular cylinders in equilateral-triangular arrangements." Journal of Fluid Mechanics 891.
[15]Chen, W. L., C. N. Ji, D. Xu, H. W. An and Z. M. Zhang (2020). "Flow-induced vibrations of two side-by-side circular cylinders at low Reynolds numbers." Physics of Fluids 32(2).
[16]Chen, W. L., C. N. Ji, D. Xu and Z. M. Zhang (2020). "Oscillation regimes and mechanisms in the vortex-induced vibrations of three circular cylinders with equilateral-triangular arrangements." Physics of Fluids 32(4).
[17]Chen, W. L., C. N. Ji, D. Xu and Z. M. Zhang (2020). "Vortex-induced vibrations of two inline circular cylinders in proximity to a stationary wall." Journal of Fluids and Structures 94.
[18]Chen, W. L., C. N. Ji, M. M. Alam and D. Xu (2019). "Flow-induced vibrations of three circular cylinders in an equilateral triangular arrangement subjected to cross-flow." Wind and Structures 29(1): 43-53.
[19]Chen, W. L., C. N. Ji, J. Williams, D. Xu, L. H. Yang and Y. T. Cui (2018). "Vortex-induced vibrations of three tandem cylinders in laminar cross-flow: Vibration response and galloping mechanism." Journal of Fluids and Structures 78: 215-238.
[20]Chen, W. L., C. N. Ji and D. Xu (2019). "Vortex-induced vibrations of two side-by-side circular cylinders with two degrees of freedom in laminar cross-flow." Computers & Fluids 193.
[21]Chen, W. L., C. N. Ji, D. Xu and J. Williams (2019). "Two-degree-of-freedom vortex-induced vibrations of a circular cylinder in the vicinity of a stationary wall." Journal of Fluids and Structures 91.
[22]Zhao, L. H., X. N. Liu, J. Mao, D. Xu, A. Munjiza and E. Avital (2018). "A Novel Contact Algorithm Based on a Distance Potential Function for the 3D Discrete-Element Method." Rock Mechanics and Rock Engineering 51(12): 3737-3769.
[23]Zhao, L. H., X. N. Liu, J. Mao, D. Xu, A. Munjiza and E. Avital (2018). "A novel discrete element method based on the distance potential for arbitrary 2D convex elements." International Journal for Numerical Methods in Engineering 115(2): 238-267.
[24]Hosseini, G., C. Ji, D. Xu, M. A. Rezaienia, E. Avital, A. Munjiza, J. J. R. Williams and J. S. A. Green (2018). "A computational model of ureteral peristalsis and an investigation into ureteral reflux." Biomedical Engineering Letters 8(1): 117-125.
[25]Ji, C. N., Z. T. Peng, M. M. Alam, W. L. Chen and D. Xu (2018). "Vortex-induced vibration of a long flexible cylinder in uniform cross-flow." Wind and Structures 26(5): 267-277.
[26]Liu, X. N., L. H. Zhao, J. Mao and D. Xu (2018). "Discrete element method using three dimensional distance potential." Rock and Soil Mechanics 39(7): 2639-2650.
[27]Chen, Youhua, Bai, Yuchuan, Xu, Dong. On the mechanisms of the saltating motion of bedload[J]. International Journal Of Sediment Research, 2017,32(1): 53-59
[28]Jie Liu,Yuchuan Bai, Dong Xu, Mass transport in a thin layer of power law mud under surface waves, Ocean Dynamics, 2017.1.1, 67(1): 237-251
[29]Song, X. L., G. Q. Xu, Y. C. Bai and D. Xu (2016). "Experiments on the short-term development of sine-generated meandering rivers." Journal of Hydro-Environment Research 11: 42-58.
[30]Antonova, N, X. Dong, P. Tosheva, E. Kaliviotis, I. Velcheva, Numerical analysis of 3D blood flow and common carotid artery hemodynamics in the carotid arterybifurcation with stenosis, Clinical Hemorheology and Microcirculation, 2015.1.1, 57(2):159-173
[31]Antonova, N, D. Xu, I. Velcheva, E. Kaliviotis, P. Tosheva, Stenos is effects on the fluid mechanics of the common carotid artery bifurcation for unsteady flows, Journal of Mechanics in Medicine and Biology, 2015.1.1, 15(2): 1540008
[32]Chen, W. L., C. N. Ji, R. Wang, D. Xu and J. Campbell (2015). "Flow-induced vibrations of two side-by-side circular cylinders: Asymmetric vibration, symmetry hysteresis and near-wake patterns." Ocean Engineering 110: 244-257.
[33]Cao Y. , Bai Y., Wang J., Liao S., Xu D., Prediction of scour depth around offshore pipelines in the South China Sea, Journal of Marine Science and Application, 2015.1.1, 14(1):83-92
[34]W. Chen, C. Ji, R. Wang, D. Xu, J. Campbell, Flow-inducedvibrations of two side-by-side circular cylinders: Asymmetric vibration, symmetry hysteresis and near-wake patterns, Ocean Engineering, 2015.1.01, 110(1):244-257
[35]Ji ChunNing, Ante, Munjiza, Eldad, Avital, Xu Dong, John, Williams, Numerical investigation of particle saltation in the bed-load regime, Science in China- Series E: Technological Sciences, 2014.8.01, 57(8):1500-1511
[36]Ji, Chunning, Munjiza, Ante, Avital, Eldad, Xu, Dong, Williams, John, Saltation of particles in turbulent channel flow, Physical Review E, 2014.5.7, 89(5)
[37]Ma, Jianmin M. , Xu, Dong , Bai, Yuchuan C., Williams, John J. R. , Probability model for gravel sediment entrainment in turbulent flows, Journal of Hydro-Environment Research, 2013.9.1, 7(3):154-160
[38] Xu D , Liu J N , Wu Y F ,et al.Numerical investigation of the dynamics of flexible vegetations in turbulent open-channel flows[J]. Journal of Hydrodynamics, 2022, 34(4):19.DOI:10.1007/s42241-022-0057-9.
[39] Dong Xu, Jianing Liu, Yunfeng Wu & Chunning Ji. A high-efficiency discretized immersed boundary method for moving boundaries in incompressible flows[J]. Scientific Reports, 2023, 13: 1699
主要在研项目
(1)国家自然科学基金面上项目,岸-滩植被动态作用下弯曲河流输沙和演变的多尺度动力机制,主持
(2)国家自然科学基金面上项目,辫状河道水沙时空相关性及多尺度输运模式,主持
个人主页
E-mail:xudong@hhu.edu.cn