金沙网络娱乐

林斌良

教授 博导

Email: linbl@tsinghua.edu.cn

电话:010-62796544

通信地址:清华大学水利水电工程系

邮编:100084


教育背景

1985.2-1988.6 中国水利水电科学院 水力学与河流海岸动力学 博士

1982.9-1985.1 天津大学 水力学与河流海岸动力学 硕士

1978.2-1982.7 清华大学 水利水电工程 学士


工作履历

2011.1—至今 清华大学水利水电工程系 教授

1997.9-2010.12 英国Cardiff大学任讲师、高级讲师、Reader、教授

1996.3-1997.8 英国Babtie工程和环境咨询公司 高级工程师

1993.10-1996.2 英国Bardford大学 博士后研究员

1988.7-1993.9 天津大学水资源与港湾工程系 讲师


开设课程

1) 潮汐利用与环境

2) 海洋资源与能源

3) 河口过程与生态环境


研究领域

水力学、河流海岸动力学、环境水力学。

目前主要从事河床演变、潮汐能利用、城市洪水等方面的研究工作。研究方法包括数学模型模拟、物理模型实验和理论分析。


科研项目

[1] 2020/01-2022/12, 江河上游水电优质发展与河流-河口生态环境演化机制研究, 水沙科学与水利水电工程国家重点实验室课题 (2020-ky-3). 

[2] 2018/01-2021/12, 入海物质通量变化机制与趋势预测, 重点研发计划任务, 所属项目: 应对转型中的河口三角洲, “政府间国际科技创新合作”重点专项, 中荷(兰)政府间合作项目, (2016YFE0133700). 合作单位: 华东师范大学.

[3] 2016/07-2020/12, 河流-水库系统浮游植物及微生物种群变异过程与调控机制, 国家重点研发计划课题 (2016YFC0502204), 所属项目: 西南水电高坝大库梯级开发的生态保护与恢复技术 (典型脆弱生态修复与保护研究). 课题合作单位: 西南科技大学, 四川大学.

[4] 2016/01-2020/12, 潮流能开发中跨尺度流场结构及轮机阵列水动力学特性研究, 国家·基金委面上项目(科研项目编号20161300680, 课题编号51679125), 合作单位::国家海洋研究中心 Multi-scale current structure in tidal stream energy extraction and hydrodynamic characteristics in turbine array

[5] 2018/01-2020/12, 天津滨海新区近岸海域入海污染物调查及入海主要污染物控制方案研究, 天津市滨海新区环境局项目. 合作单位: 天津市环境保护科学研究院.

[6] 2015/03-2017/03, 超大城市发展和气候变化条件下城市洪水灾害研究 (Flood impact assessment in mega cities under urban sprawl and climate change). 全球创新计划(GII)项目. 

[7] 2015/01-2017/12, 冲积型河流演变过程的机理和模拟研究, 水沙科学与水利水电工程国家重点实验室课题 (2015-ky-2). 

[8] 2013/01-2015/12, 大型水库滞温效应、规律与对策, 清华大学水沙科学与水利水电工程国家重点实验室项目, “人类活动等对河流下游物质通量的作用与对策” (2013-ky-1). 

[9] 2012/01-2014/12, 波浪、潮流能资源调查、建模与评估, 国家高技术研究发展计划 (863计划, SS2012AA052602).


学术兼职

水力发电学报 副主编

International Journal of Sediment Research编委

IAHR Journal of Applied Water Engineering and Research副主编

Journal of Engineering and Computational Mechanics 编委


奖励与荣誉

2015年     英国土木工程师协会“Robert Alfred Carr Prize”,    第二

Fellow of the Learned Society of Wales (FLSW)

Fellow of the Institution of Civil Engineer (FICE)

Member of the International Association of Hydraulic Engineering and Research (IAHR)

Laboratory, Ministry of Science & Technology (MOST), 2015.1-2017.12


学术成果

Journal publication since 2011:

[1] Sun Jian, Liu Leyang, Lin Jie, Lin Binliang*, Zhao Haiping. Vertical water renewal in a large estuary and implications for water quality. Science of the Total Environment, 710 (2020): 135593. 

[2] Li Yuanyi, Sun Jian, Lin Binliang*, Liu Zhaowei. Thermal-hydrodynamic circulations and water fluxes in a tributary bay of the Three Gorges Reservoir. Journal of Hydrology, 585 (2020): 124319. 

[3] Yuan Bing, Sun Jian, Lin Binliang*, Zhang Fanyi. Long-term morphodynamics of a large estuary subject to decreasing sediment supply and sea level rise. Global and Planetary Change, 2020, 191: 103212. 

[4] Yuan Bing, Lin Binliang, Sun Jian*. Decadal changes in sediment budget and morphology in the tidal reach of the Yangtze River. Catena, 2020, 188: 104438. 

[5] Huang Zhe, Lin Binliang, Sun Jian*, et al. Suspended Sediment Transport Responses to Increasing Human Activities in a High-Altitude River: A Case Study in a Typical Sub-Catchment of the Yarlung Tsangpo River. Water, 2020, 12: 952. 7.

[6] Lin J, Borthwick A.G.L., Lin B, Draper S. Power extraction by a water turbine in inviscid free surface flow with vertical shear, European Journal of Mechanics, B/Fluids, 2020. 79, pp. 401-418

[7] Li Yuanyi, Zhang Weiguo, Lin Binliang, Sun Jian, Feng Huan*. 210PB, 137CS and 7Be as Tracers for Sediment Deposition in an Embayment of Three Gorges Reservoir, China. Chapter of Radionuclides: Properties, Behaviour and Potential Health, edited by Todorovic? Nata?a and Nikolov Jovana, 2020, Published by Nova Science Publishers, Inc. New York.

[8] 陶磊, 孙健, 李原仪, 刘海英, 尚建程, 林斌良, 聂振华, 袁德奎. 潮汐和季风作用下渤海湾水交换研究. 水力发电学报, 2020, 39(5): 99-107. 

[9] Sun Jian, Zhang Man, Zhou Jianjun, Lin Binliang*. Investigation on hydrothermal processes in a large channel-type reservoir using an integrated physics-based model. Journal of Hydroinformatics, 2019, 21(3): 493-509.

[10] Chen Yaling, Lin Binliang*, Sun Jian, Guo Jinxi, Wu Wenlong. Hydrodynamic effects of the ratio of rotor diameter to water depth: An experimental study. Renewable Energy, 2019, 136: 331-341.

[11] 刘璐, 孙健, 袁冰, 林斌良. 城市暴雨地表积水过程研究:以清华大学校园为例. 水力发电学报, 2019, 38(8): 98-109.

[12] Zhang Fanyi, Lin Binliang, Sun Jian*. Current reversals in a large tidal river. Estuarine, Coastal and Shelf Science, 2019, 223: 74-84.

[13] Huang Guoxian, Falconer Roger, Lin Binliang, Evaluation of E.coli losses in a tidal river network using a re?ned 1-D numerical model, Environmental Modelling and Software, 2018, Vol.108, 91–101

[14] Li Jun-De, Sun Jian, Lin Binliang*. Bed-Load Transport Based on the Entrainment Probabilities of Sediment Grains by Rolling and Lifting. International Journal of Sediment Research, 2018, 33: 126-136. 

[15] Zhang Fanyi, Sun Jian, Lin Binliang*. Huang Guoxian. Seasonal hydrodynamic interactions between tidal waves and river flows in the Yangtze Estuary. Journal of Marine Systems, 2018, 186: 17-28. 

[16] Liu Lu, Sun Jian, Lin Binliang, Lu Lingwei. Building performance in dam-break flow – an experimental study. Urban Water Journal, 2018, 15(3): 251-258. 

[17] Yang H, Lin B and Zhou J, Avulsions in a simulated large lowland braided river, Water Resources Management, 2018, Vol.32, 2301-2314.

[18] Chen Y, Lin B, Lin J, Wang S, Experimental study of wake structure behind a horizontal axis tidal stream turbine. Applied Energy, 2017, 196, 82-96.

[19] Sun Jian, Lu Lingwei, Lin Binliang*, Liu Lu. Processes of dike-break induced flows: A combined experimental and numerical model study. International Journal of Sediment Research, 2017, 32: 465-471. 

[20] Yang Haiyan*, Lin Binliang, Sun Jian, Huang Guoxian. Simulating laboratory braided rivers with bed-load sediment transport. Water, 2017 9: 686. 21.

[21] Huang G, Falconer RA, Lin B, Integrated hydro-bacterial modelling for predicting bathing water quality, Coastal and Shelf Science, 2017, 188, 145-155.

[22] Huang G, Zhou J, Lin B, Xu X and Zhang S, Modelling flow in the middle and lower Yangtze River, China, Water Management, Proceedings of the Institution of Civil Engineers, 2017, 298–309.

[23] Faghihirad S, Lin B, Falconer RA, 3D Layer-Integrated Modelling of Morphodynamic Processes Near River Regulated Structures, Water Resource Management, 2017, 31, 443-460.

[24] Lin Jie, Lin Binliang, Sun Jian*, Chen Yaling. Numerical model simulation of island-headland induced eddies in a site for tidal current energy extraction. Renewable Energy, 2017, 101: 204-213. 

[25] 韩晗,张曼,林斌良,周建军. 连续丁坝回流特性实验研究[J]. 水力发电学报, 2017, 36(10): 84-92 

[26] Fang H, Lai X, Lin B, Xu B, Zhang F and Zhang Y, Variational-Based Data Assimilation to Simulate Sediment Concentration in the Lower Yellow River, China, Journal of Hydrologic Engineering, ASCE, Vol. 21, 2016, pp 1-11.

[27] Lin Jie, Lin Binliang*, Sun Jian and Chen Yaling, Modelling hydrodynamic processes in tidal stream energy extraction. Journal of Hydrodynamics, 2016. 28(6). 1058-1064. 

[28] 林杰, 林斌良, 陈娅玲, 孙健, 2016. 水平轴潮流发电机作用下流场的动态模拟. 太阳能学报, 37(4): 1050-1055. 

[29] 陆灵威, 林斌良, 孙健, 刘璐, 2016. 河道溃堤水波的物理模型实验研究. 水力发电学报, 35: 25-34. 

[30] Sun Jian, Lin Binliang. A hydro-morphological study with a physics-based numerical model. The 11th International Symposium on Eco-hydraulics, 2016, Feb 7-12, Melbourne, Australia.

[31] Liu Lu, Sun Jian, Lin Binliang, Lu Lingwei. Numerical and Experimental Study on dam-break flows with building, 12th International Conference on Hydroinformatics, 2016, 21-26 August, Songdo Convensia, Incheon, Korea.

[32] Zhou, Jianjun; Zhang, Man; Lin, Binliang; Lu, Pingyu Lowland fluvial phosphorus altered by dams, Water Resources Research. 2015, 51, 2211-2226.

[33] Yang, Haiyan; Lin, Binliang; Zhou, Jianjun Physics-based numerical modelling of large braided rivers dominated by suspended sediment, Hydrological Processes. 2015, 29, 1925-1941.

[34] Sun, Jian; Lin, Binliang; Yang, Haiyan Development and application of a braided river model with non-uniform sediment transport, Advances in Water Resources. 2015, 81, 62-74.

[35] Sun, Jian; Lin, Binliang; Kuang, Hongwei Modelling the dynamic processes of channel migration, Proceedings of the Institution of Civil Engineers-Water Management. 2015, 168, 256-269.

[36] Sun, Jian; Lin, Binliang; Kuang, Hongwei Numerical modelling of channel migration with application to laboratory rivers, International Journal of Sediment Research. 2015, 30, 13-27.

[37] Loudyi, Dalila; Falconer, Roger A.; Lin, Binliang Finite Volume Method and Accuracy of Groundwater Flow Models, Houille Blanche. 2015, 2, 39-44.

[38] Lin, Jie; Sun, Jian; Liu, Lu; Chen, Yaling; Lin, Binliang Refined representation of turbines using a 3D SWE model for predicting distributions of velocity deficit and tidal energy density, International Journal of Energy Research. 2015, 39, 1828–1842.

[39] Huang, Guoxian; Falconer, Roger A.; Lin, Binliang Integrated River and Coastal Flow, Sediment and Escherichia coli Modelling for Bathing Water Quality, Water. 2015, 7, 4752-4777.

[40] Gao, Guanghai; Falconer, Roger A.; Lin, Binliang Modelling the fate and transport of faecal bacteria in estuarine and coastal waters, Marine Pollution Bulletin. 2015, 100, 162-168.

[41] Faghihirad, Shervin; Lin, Binliang Lin; Falconer, Roger Application of a 3D Layer Integrated Numerical Model of Flow and Sediment Transport Processes to a Reservoir, Water. 2015, 7, 5239-5257.

[42] Chen, Yaling; Lin, Binliang; Lin, Jie; Wang, Shujie Effects of stream turbine array configuration on tidal current energy extraction near an island, Computers & Geosciences. 2015, 77, 20-28.

[43] Zhou, Juntao; Falconer, Roger A.; Lin, Binliang Refinements to the EFDC model for predicting the hydro-environmental impacts of a barrage across the Severn Estuary, Renewable Energy. 2014, 62, 490-505.

[44] Xie, Zhihua; Lin, Binliang; Falconer, Roger A. Turbulence characteristics in free-surface flow over two-dimensional dunes, Journal of Hydro-Environment Research. 2014, 8, 200-209.

[45] Sun, Jian; Lin, Binliang; Li, Kaiming; Jiang, Guoqiang A modelling study of residence time and exposure time in the Pearl River Estuary, China, Journal of Hydro-Environment Research. 2014, 8, 281-291.

[46] Sun, Jian; Lin, Binliang; Jiang, Guoqiang; Li, Kaiming; Tao, Jianhua Modelling study on environmental indicators in an estuary, Proceedings of the Institution of Civil Engineers-Water Management. 2014, 167, 141-151.

[47] Ren, Yuheng; Lin, Binliang; Sun, Jian; Pan, Shunqi Predicting water age distribution in the Pearl River Estuary using a three-dimensional model, Journal of Marine Systems. 2014, 139, 276-287.

[48] Chen, Yaling; Lin, Binliang; Lin, Jie Modelling tidal current energy extraction in large area using a three-dimensional estuary model, Computers & Geosciences. 2014, 72, 76-83.

[49] Yang, Chen; Jiang, Chunbo; Lin, Binliang Modelling Graded Sediment Transport and Bed Evolution in a Tidal Harbour, Journal of Coastal Research. 2013, 29, 736-744.

[50] Xie, Zhihua; Lin, Binliang; Falconer, Roger A.; Maddux, Timothy B. Large-eddy simulation of turbulent open-channel flow over three-dimensional dunes, Journal of Hydraulic Research. 2013, 51, 494-505.

[51] Xie, Zhihua; Lin, Binliang; Falconer, Roger A. Large-eddy simulation of the turbulent structure in compound open-channel flows, Advances in Water Resources. 2013, 53, 66-75.

[52] Wang, Fei; Lin, Binliang Modelling habitat suitability for fish in the fluvial and lacustrine regions of a new Eco-City, Ecological Modelling. 2013, 267, 115-126.

[53] Gao, Guanghai; Falconer, Roger A.; Lin, Binliang Modelling importance of sediment effects on fate and transport of enterococci in the Severn Estuary, UK, Marine Pollution Bulletin. 2013, 67, 45-54.

[54] Gao, Guanghai; Falconer, Roger A.; Lin, Binliang Modeling effects of a tidal barrage on water quality indicator distribution in the Severn Estuary, Frontiers of Environmental Science & Engineering. 2013, 7, 211-218.

[55] Xia, Junqiang; Lin, Binliang; Falconer, Roger A.; Wang, Yanping Modelling of man-made flood routing in the lower Yellow River, China, Proceedings of the Institution of Civil Engineers-Water Management. 2012, 165, 377-391.

[56] Xia, Junqiang; Falconer, Roger A.; Lin, Binliang; Tan, Guangming Estimation of annual energy output from a tidal barrage using two different methods, Applied Energy. 2012, 93, 327-336.

[57] 夏军强; 王光谦; 林斌良; 谈广鸣 动床条件下溃坝水流的二维水沙耦合模型, 水利学报. 2011, 296-308.

[58] Xia, Junqiang; Teo, Fang Yenn; Lin, Binliang; Falconer, Roger A. Formula of incipient velocity for flooded vehicles, Natural Hazards. 2011, 58, 1-14.

[59] Xia, Junqiang; Falconer, Roger A.; Lin, Binliang; Tan, Guangnin Estimation of future coastal flood risk in the Severn Estuary due to a barrage, Journal of Flood Risk Management. 2011, 4, 247-259.

[60] Xia, Junqiang; Falconer, Roger A.; Lin, Binliang; Tan, Guangming Modelling flash flood risk in urban areas, Proceedings of the Institution of Civil Engineers-Water Management. 2011, 164, 267-282.

[61] Xia, Junqiang; Falconer, Roger A.; Lin, Binliang; Tan, Guangming Numerical assessment of flood hazard risk to people and vehicles in flash floods, Environmental Modelling & Software. 2011, 26, 987-998.

[62] Shu, Caiwen; Xia, Junqiang; Falconer, Roger A.; Lin, Binliang Incipient velocity for partially submerged vehicles in floodwaters, Journal of Hydraulic Research. 2011, 49, 709-717.

[63] Gao, Guanghai; Falconer, Roger A.; Lin, Binliang Numerical modelling of sediment-bacteria interaction processes in surface waters, Water Research. 2011, 45, 1951-1960.