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个人概况
科学研究
教学信息
社会职务
荣誉及奖励
招生信息
袁赛瑜
职称: 教授 博士生导师部门: 水利水电学院
学科: 水利工程
教学部门: 水利水电学院
电话:
邮件: yuansaiyu@hhu.edu.cn
办公地址:
通讯地址: 江苏省南京市鼓楼区西康路1号
邮编: 210098
10 访问
个人简介
袁赛瑜,河海大学青年教授,博士生导师,河海大学水利水电工程(基地强化班)学士、水力学及河流动力学博士,美国俄勒冈州立大学、杰克逊州立大学联合培养,新西兰奥克兰大学访问学者,SCI检索期刊《Journal of Coastal Research》副主编、《Journal of Applied Water Engineering and Research-IAHR》副主编、《Fluid Dynamics & Materials Processing》编委、水文水资源与水利工程科学国家重点实验室固定成员、长江保护与绿色发展研究院研究成员、水力学及河流研究所副所长、淮河研究中心副主任。霍英东教育基金会青年教师基金项目获得者,入选中国科协“优秀中外青年交流计划”、江苏省科协“青年托举工程”培养对象。长期从事河流动力过程及生态环境响应方面的理论研究和工程实践,与剑桥大学、奥克兰大学、渥太华大学、爱荷华大学等学府著名学者保持长期学术合作,合作开展野外观测、数学模拟和室内试验方面的研究。主持国家自然基金面上项目、青年基金、霍英东基金、国家重点研发计划专题等项目14项,承担淮河洪涝治理与水环境提升、南水北调东线二期线路优化、鄱阳湖水生态治理、瘦西湖水环境提升、上海河网水资源配置等重要工程研究项目。发表《Journal of Hydrology》等TOP 期刊论文35篇,其中SCI检索论文20余篇(第1作者8篇,通讯作者3篇),授权发明专利5项(国际专利1项);多次受邀在奥克兰大学等学府以及重要学术会议做演讲报告。出版英文专著和中文专著各1部。参编行业标准2部。获江苏省优秀博士论文、南京市优秀学术论文一等奖。获江苏省科学技术一等奖2项(2013年、2017年)、大禹水利科技二等奖1项(2017年)。主讲《水工建筑物》等本科课程,邀请3位国外专家开设《Applied Hydraulics》等本科和研究生课程3门。指导渥太华大学交流生、缅甸留学生等。
代表性论著:
1. Saiyu Yuan, Hongwu Tang, Kun Li, Lei Xu, Yang Xiao, Carlo Gualtieri, Colin Rennie, Bruce Melville: Hydrodynamics, sediment transport and morphological features at the confluence between the Yangtze River and the Poyang Lake. Water Resources Research(TOP期刊), 2021, 10.1029/2020WR028284.
2. Saiyu Yuan, Hongwu Tang, Yang Xiao, Yang Xia, Charles Melching, Zhiwei Li: Phosphorus contamination of the surface sediment at a river confluence. Journal of Hydrology(TOP期刊), 2019, 573, 568-580.
3. Saiyu Yuan, Hongwu Tang, Yang Xiao, Xuehan Qiu, Yang Xia: Water flow and sediment transport at open-channel confluences: an experimental study.Journal of Hydraulic Research 06/2018; 56(3):333–350., DOI:10.1080/**.2017.**
4. Saiyu Yuan, Hongwu Tang, Lin Li, Yi Pan, Farshad Amini: Combined wave and surge overtopping erosion failure model of HPTRM levees: Accounting for grass-mat strength. Ocean Engineering 11/2015; 109:256-269., DOI:10.1016/j.oceaneng.2015.09.005
5. Saiyu Yuan, Hongwu Tang, Yang Xiao, Xi Chen, Yang Xia, Zhaoyu Jiang: Spatial variability of phosphorus adsorption in surface sediment at channel confluences: Field and laboratory experimental evidence. Journal of Hydro-environment Research 02/2018; 18:25-36., DOI:10.1016/j.jher.2017.10.001
6. Saiyu Yuan, Hongwu Tang, Yang Xiao, Xuehan Qiu, Huiming Zhang, Dandan Yu: Turbulent flow structure at a 90-degree open channel confluence: Accounting for the distortion of the shear layer.Journal of Hydro-environment Research 09/2016; 12:130-147., DOI:10.1016/j.jher.2016.05.006
7. Saiyu Yuan, Lin Li, Farshad Amini, Hongwu Tang: Turbulence Measurement of Combined Wave and Surge Overtopping of a Full-Scale HPTRM-Strengthened Levee. Journal of Waterway Port Coastal and Ocean Engineering 07/2014; 140(4):**., DOI:10.1061/(ASCE)WW.1943-5460.**
8. Saiyu Yuan, Lin Li, Farshad Amini, Hongwu Tang: Sensitivity of Combined Turbulent Wave Overtopping and Storm Surge Overflow Response to Variations in Levee Geometry. Journal of Coastal Research 05/2015; 313(3):702-713., DOI:10.2112/JCOASTRES-D-14-00079.1
9. Saiyu Yuan, Lin Li, Farshad Amini, Hongwu Tang: Numerical Study of Turbulence and Erosion of an HPTRM-Strengthened Levee under Combined Storm Surge Overflow and Wave Overtopping. Journal of Coastal Research 01/2014; 293(1):142-157., DOI:10.2112/JCOASTRES-D-12-00250.1
10. Yu Q., Saiyu Yuan, Rennie C.D. Experiments on the morphodynamics of open channel confluences: Implications for the accumulation of contaminated sediments. Journal of Geophysical Research: Earth Surface, 2020, 125, e2019JF005438.
11. Lin Li, Saiyu Yuan, Farshad Amini, Hongwu Tang: Numerical study of combined wave overtopping and storm surge overflow of HPTRM strengthened levee. Ocean Engineering 03/2015; 97., DOI:10.1016/j.oceaneng.2015.01.005
12. Tang H, Cao H, Saiyu Yuan*, Yang Xiao, Chenyu Jiang, Carlo Gualtieri. A numerical study of hydrodynamic processes and flood mitigation in a large river-lake system. Water Management Research, 2020, 34, 3739-3760.
13. Yang Xiao, Yang Xia, Saiyu Yuan*, Hong-wu Tang: Flow structure and phosphorus adsorption in bed sediment at a 90° channel confluence. Journal of Hydrodynamics 10/2017; 29(5):902-905., DOI:10.1016/S1001-6058(16)60804-1
14. Yang Xiao, Yang Xia, Saiyu Yuan*, Hongwu Tang: Distribution of phosphorus in bed sediment at confluences responding to hydrodynamics. Water Management 12/2017;, DOI:10.1680/jwama.17.00063
15. Hongwu Tang, Huiming Zhang, Saiyu Yuan: Hydrodynamics and contaminant transport on a degraded bed at a 90-degree channel confluence. Environmental Fluid Mechanics 04/2018; 18(2):443-463., DOI:10.1007/s10652-017-9562-8
16. Hongwu Tang, Huiming Zhang, Saiyu Yuan: Response to: “Discussion of: hydrodynamics and contaminant transport on the degraded bed at a 90-degree channel confluence” by Seastien Pouchoulin, Pedro Xavier Ramos, Emmanuel Mignot, et al.. Environmental Fluid Mechanics 07/2018; 18(9)., DOI:10.1007/s10652-018-9613-9
17. Hongwu Tang, Qingxia Li, Saiyu Yuan, Zhiwei Li: Effect of aggregation on the adsorption of phosphorus onto air-dried sediment in contrasting shear flow conditions. Journal of Soils and Sediments 03/2017; 17(8):2177–2186., DOI:10.1007/s11368-017-1681-9
18. Hao Wang, HongWu Tang, Saiyu Yuan, ShengQi Lv, XuanYu Zhao: An experimental study of the incipient bed shear stress partition in mobile bed channels filled with emergent rigid vegetation. Science China Technological Sciences 06/2014; 57(6):1165-1174., DOI:10.1007/s11431-014-5549-6
19. Zhao H., Yan J., Saiyu Yuan, et al. Effects of submerged vegetation density on turbulent flow characteristics in an open channel. Water, 2019 11(10): 2154.
20. Qian Du, Hongwu Tang, Saiyu Yuan, Yang Xiao: Predicting flow rate and sediment in bifurcated river branches. Water Management 08/2016; 169(4):156-167., DOI:10.1680/wama.14.00161
21. Hongwu Tang, Zhijun Tian, Jing Yan, Saiyu Yuan: Determining drag coefficients and their application in modelling of turbulent flow with submerged vegetation. Advances in Water Resources 07/2014; 69., DOI:10.1016/j.advwatres.2014.04.006
22. Hongwu Tang, Hanqing Zhao, Zhiwei Li, Saiyu Yuan, Qingxia Li, Fei Ji, Yang Xiao: Phosphorus sorption to suspended sediment in freshwater. Water Management 10/2017; 170(5):231-242., DOI:10.1680/jwama.15.00056
23. Jin G., Yang W., Xu H., Zhang Z., Saiyu Yuan, et al. Density effects on solute release from streambeds. Hydrological Processes, 2020, 34(5), 1144-1153.
24. Liu J, Zhang P, Xiao Y, Wang Z, Saiyu Yuan, et al. Interaction between dual spherical particles during settling in fluid. Physics of Fluids, 2021, 33(1):013312.
25. Yang Xiao, Hao Jia, Dawei Guan, Dongfang Liang, Saiyu Yuan, Hongwu Tang, Experimental investigation on scour topography around high-rise structure foundations, International Journal of Sediment Research, 2021, 36(3), 348-361.
26. Zhang T, Xiao Y, Liang D, Tang H, Saiyu Yuan, et al. Rainfall Runoff and Dissolved Pollutant Transport Processes Over Idealized Urban Catchments. Front. Earth Sci., 2020, 8:305.
27. Zhang T, Xiao Y, Liang D, Tang H, Xu J, Saiyu Yuan, et al. A physically-based model for dissolved pollutant transport over impervious surfaces. Journal of Hydrology, 2020, 590(4): 125478.
个人资料
姓名: 袁赛瑜
性别: 男
学位: 工学博士学位
--> --> 出生年月: 1987-03-11 00:00:00.0
学历: 博士研究生
毕业院校: 河海大学
教育经历
2005-2009,河海大学,水利水电工程基地强化班,学士
2009-2014,河海大学,水力学及河流动力学,博士
工作经历
2011.09-2011.12,Oregon State University,大型水槽实验研究,合作专家:Prof. Lin Li,联合培养
2011.03-2012.12,Jackson State University,数值模拟研究;合作专家:Prof. Amini Farshad,联合培养
2014.09-2019.06,河海大学水利水电学院,河流动力过程及环境生态响应、河流环境生态治理,讲师
2019.06-至今,河海大学水利水电学院,河流动力过程及环境生态响应、河流环境生态治理,教授
2019.11-2020.01,University of Auckland,水槽实验模拟研究;合作专家:Prof. Bruce Melville,访问学者
研究领域
河流动力过程及环境生态响应、河流生态环境治理、水力学、环境水力学、生态水力学、河流动力学
科研项目
1、波浪条件下堤防溢流破坏及防护研究,2014.09.01-2017.03.17,水利水电学院
2、平原区河网交汇处复杂河床下污染物迁移转化规律,2016.01.01-2018.12.31,国家自然科学基金委员会,水利水电学院
3、水利工程下游交汇河道演变规律研究,2018.01.01-2019.12.30,水利水电学院
4、界牌至双港渠化航道配套整治工程、双港至褚溪河口湖区Ⅲ级航道整治工程可行性研究,2017.06.26-,江西省港航建设投资有限公司,水利水电学院
5、淮河干流河道与洪泽湖演变及治理,2017.07.01-,科技部,水利水电学院
6、上海市水利控制片水资源调度实施细则修编项目,2019.04.08-,上海市水利管理处,水利水电学院
7、中国科协优秀中外青年交流计划(2019年度),2020.01.01-,中国科协组织人事部,水利水电学院
8、河道交汇处物质输移与鱼类运动行为的响应机制,2020.03-2023.03,2020.03,袁赛瑜,霍英东基金会,水利水电学院, 霍英东教育基金会高等院校青年教师基金,171068,霍英东基金会
论文
1、Turbulence Measurement of Combined Wave and Surge Overtopping of a Full-Scale HPTRM-Strengthened Levee,JOURNAL OF WATERWAY PORT COASTAL AND OCEAN ENGINEERING,01-JAN-14
2、Determining drag coefficients and their application in modelling of turbulent flow with submerged vegetation,ADVANCES IN WATER RESOURCES,01-JAN-14
3、An experimental study of the incipient bed shear stress partition in mobile bed channels filled with emergent rigid vegetation,SCIENCE CHINA-TECHNOLOGICAL SCIENCES,01-JAN-14
4、Numerical Study of Turbulence and Erosion of an HPTRM-Strengthened Levee under Combined Storm Surge Overflow and Wave Overtopping,JOURNAL OF COASTAL RESEARCH,01-JAN-14
5、Effects of flow and sediment on the transport and transformation of pollutants in rivers: A review,Shuikexue Jinzhan/Advances in Water Science,01-JAN-14
6、Combined wave and surge overtopping erosion failure model of HPTRM levees: Accounting for grass-mat strength,OCEAN ENGINEERING,01-JAN-15
7、Sensitivity of Combined Turbulent Wave Overtopping and Storm Surge Overflow Response to Variations in Levee Geometry,JOURNAL OF COASTAL RESEARCH,01-JAN-15
8、Phosphorus sorption to suspended sediment in freshwater,PROCEEDINGS OF THE INSTITUTION OF CIVIL ENGINEERS-WATER MANAGEMENT,01-JAN-17
9、Flow structure and phosphorus adsorption in bed sediment at a 90 channel confluence,JOURNAL OF HYDRODYNAMICS,01-JAN-17
10、Effect of aggregation on the adsorption of phosphorus onto air-dried sediment in contrasting shear flow conditions,JOURNAL OF SOILS AND SEDIMENTS,01-JAN-17
11、Fluvial processes of Poyang Lake and estuaries of "Five rivers",Zhongguo Kexue Jishu Kexue/Scientia Sinica Technologica,01-JAN-17
12、Water Flow and Sediment Transport at Open-Channel Confluence: An Experimental Study,Journal of Hydraulic Research-IAHR,01-JAN-17
13、Spatial Variability of Phosphorus Adsorption in Surface Sediment at Channel Confluences: Field and Laboratory Experimental Evidence,Journal of Hydro-environment Research-IAHR,01-JAN-18
14、Turbulent Flow Structure at a 90-degree Open Channel Confluence: Accounting for the Distortion of the Shear Layer,Journal of Hydro-environment Research-IAHR,01-JAN-16
15、Hydrodynamics and Contaminant Transport on a Degraded Bed at a 90-degree Channel Confluence,Environmental Fluid Mechanics,01-APR-17
16、Response to: “Discussion of: hydrodynamics and contaminant transport on the degraded bed at a 90-degree channel confluence” by Seastien Pouchoulin, Pedro Xavier Ramos, Emmanuel Mignot, et al.,Environmental Fluid Mechanics,01-JUL-18
17、Predicting Flow Rate and Sediment in Bifurcated River Branches,Water Management-ICE,01-AUG-16
18、河流水沙运动对污染物迁移转化效应研究进展,水科学进展,19-MAR-14
19、鄱阳湖及五河尾闾演变特征,中国科学. 技术科学,01-JAN-17
20、干燥再淹没对细颗粒床沙磷吸附特性的影响研究,水利学报,01-JAN-17
21、Phosphorus contamination of the surface sediment at a river confluence,Journal of Hydrology,SCI,2019,袁赛瑜,河海大学,573: 568-580
科技成果
1、表层床沙污染物吸附/解吸特性测量装置及其使用方法,2018-04-03,水利水电学院,发明专利,3
2、交汇河道水沙运动的实验装置,2018-05-01,水利水电学院,实用新型,3
3、河道交汇区急缓流平稳过渡导流系统,2015-08-05,水利水电学院,发明专利,3
4、红外光水位测量装置及其测量方法,2016-08-31,水利水电学院,发明专利,3
5、一种研究非淹没刚性植物条件下泥沙起动的装置及方法,2015-09-16,水利水电学院,发明专利,3
6、确定河网交汇处污染物分布的实验模拟系统(实用新型),2017-12-29,水利水电学院,实用新型,3
开授课程
1、水工建筑物,本科生,70,48
2、水工建筑物课程设计,本科生,69,80
3、道路与桥梁工程,本科生,8,24
4、工程水力学理论及应用,本科生,24
5、工程泥沙及河流管理,本科生,42,24
教学成果
教学资源
社会职务
Committees
2020 Deputy director, Research Center of Huai River, Hohai University
2020 Deputy director, Institute of Hydraulics and River
2020 Member, Yangtze Institute of Conservation and Development
2020 Member, State Key Laboratory of Hydrology-Water Resources and Hydraulic Engineering
2019 Scientific Committee, 4thIMA International Conference on Flood Risk, Swansea
2018 Member, Chinese Society of Theoretical and Applied Mechanics
2018 Delegates to the National Congress of Chinese Soc. of Theoretical and Appl. Mech.
2017 Expert Committee, Base for Introducing Talents of Discipline to Universities
Editorships
2020 Associate Editor, Journal of Applied Water Engineering and Research-IAHR
2020 Associate Editor, Journal of Coastal Research
2019 Editor Board Member, Fluid Dynamics & Materials Processing
荣誉及奖励
招生信息
2021-2024年招生信息
研究兴趣:河流水动力过程与水生态环境的响应;流体力学与涡旋结构;遥感与河流演变知识储备:水力学(硕士研究生);河流动力学、流体力学(博士研究生);学习过环境水力学、生态水力学、计算水力学等学生优先考虑
基本要求:数学功底较强、英语水平较高;现场实验、室内实验等需要,有吃苦耐劳的精神
项目资助:
1. 霍英东青年教师基金,河道交汇处物质输移与鱼类运动行为的响应机制
2. 国家自然基金面上项目,非恒定交汇流物质输移与水力调控
3. 长江水科学研究联合基金,长江流域典型通江湖泊水生态环境演变规律及水库群优化调控方法研究
