• 袁赛瑜
    水力学及河流研究所

    个人简介:

      

    袁赛瑜

      

    出生年月

    19873

      

    教授

    毕业学校

    河海大学

      

    水力学及河流动力学

     

    博士

    联系电话


     

    电子邮件

    yuansaiyu@hhu.edu.cn

    研究方向

    河网水动力学,生态水力学,水动力系统理论与再构技术,河湖水生态环境治 理,智慧水利与流域数字孪生

    获奖情况

    2021年,国家级青年人才

    2023年,江苏省杰青

    2022年,江苏青年五四奖章

    2019年,霍英东青年教师基金

    2021年,江苏省“333高层次人才培养工程

    2019年,中国科协优秀中外青年交流计划

    2018年,江苏省科协青年科技人才托举工程

    2023年,国家级教学成果奖二等奖

    2022年,教育部自然科学奖一等奖(排名2

    2017年,江苏省科学技术奖一等奖

    2017年,水利部大禹水利科技奖二等奖

    2015年,江苏省优秀博士学位论文

    2013年,江苏省科学技术奖一等奖

    主要成果

    河海大学教授、博士生导师,国家级青年人才、霍英东青年教师基金、江苏省杰青、江苏青年五四奖章获得者,入选中国科协优秀中外青年交流计划。美国俄勒冈州立大学联合培养,新西兰奥克兰大学访问学者。担任国际水力学权威期刊SCI检索《Journal of Hydraulic Research》副主编,担任中国水利学会水力学专委会副主任委员等职。长期从事河网水动力学、生态水力学、河湖水生态环境治理、智慧水利与流域数字孪生等研究。与英国剑桥大学、新西兰奥克兰大学、美国爱荷华大学等学府著名学者保持长期学术合作。主持国家自然科学基金重点、面上等科研项目20余项,承担淮河洪涝与水环境治理、鄱阳湖水生态治理、太湖水生态功能提升、上海河网水资源配置等重要工程研究。成果发表在《Water Resources Research》、《Journal of Hydrology》等水利领域顶级期刊上发表SCI检索论文70余篇(第一/通讯作者40余篇),出版专著3部,授权发明10余项,参编国家、行业标准3部。获2022年教育部自然科学一等奖(排名2)、20132017年江苏省科学技术一等奖等荣誉。

    代表性论著:

    (1) Yuan S., Zheng Y., Tang H., et al. Large Wood Transport and Accumulation   Near the Separation Zone of a Channel Confluence. Water Resources Research,   2024, 60.  

    (2)  Yuan S.,   Lin J., Tang H., et al. Near-surface turbulent dissipation at a   laboratory-scale confluence: implications on gas transfer. Environmental   Fluid Mechanics, 2024.

    (3)Yuan S., Qiu J., Tang H., et al. Fish Community Traits near a   Large Confluence: Implications for Its Nodal Effects in the River   Ecosystem. Journal of Hydrology, 2023, 626(2023):130335.

    (4)  Yuan S., Lin H., Tang H., et al. An optimized entropy-based model for   estimating river confluence hydrodynamics: Accounting for the effects of velocity   dip. Journal of Hydrology, 2023, 628(11):130408.

    (5) Yuan S., Yan G., Tang H., et al. Effects of tributary floodplain on confluence   hydrodynamics. Journal of Hydraulic Research, 2023, 61(6317):1-21.

    (6) Tang H., Yuan S., Cao H. Theory and Practice of Hydrodynamic   Reconstruction in Plain River Networks. Engineering, 2023, 24, 202-211.

    (7)  Yuan S., Zhu Y., Tang H., et al. Planform evolution and hydrodynamics   near the multi-channel confluence between the Yarlung Zangbo River and the   delta of the Niyang River. Geomorphology, 2022: 108157.

    (8) Xu L., Yuan S., Tang H., et al. Mixing Dynamics at the Large   Confluence Between the Yangtze River and Poyang Lake. Water Resources   Research, 2022, 58(11).

    (9)  Yuan S., Xu L., Tang H., et al. Swimming behavior of juvenile silver   carp near the separation zone of a channel confluence. International Journal   of Sediment Research, 2022, 37(1): 122-127.

    (10)   Yuan S., Tang H., Li K., et al. Hydrodynamics, sediment transport   and morphological features at the confluence between the Yangtze River   and the Poyang Lake. Water Resources Research, 2021, 57.

    (11)  Yu Q., Yuan S., 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.

    (12)  Yuan S., Tang H., Xiao Y., et al. Phosphorus contamination of the   surface sediment at a river confluence. Journal   of Hydrology, 2019, 573, 568-580.

    (13)  Yuan S., Tang H., Xiao Y., et al. Water flow and sediment transport at   open-channel confluences: an experimental study. Journal of Hydraulic   Research, 2018, 56(3), 333-350.

    (14)  Yuan S., Xu L., Tang H., et al. The dynamics of river confluences and   their effects on the ecology of aquatic environment: A review. Journal of   Hydrodynamics, 2022.

    (15)  Yuan S., Tang H., Xiao Y., et al. Spatial variability of phosphorus   adsorption in surface sediment at channel   confluences: Field and laboratory experimental evidence. Journal of   Hydro-environment Research, 2018, 18, 25-36.

    (16) Yuan S., Tang H., Xiao Y., et al. Turbulent flow structure at a 90-degree open channel confluence: accounting for the distortionof the shear layer. Journal of Hydro-environment Research, 2016, 12, 130-147.

    (17) Yuan S., Tang H., Li L., et al. Combined wave and surge overtopping   erosion failure model of HPTRM levees: accounting for grass-mat strength.   Ocean Engineering, 2015, 109, 256-269.

    (18) Yuan S., Li L., Amini F., et al. Turbulence measurement of combined wave   and surge overtopping of a full-scale HPTRM-strengthened levee. Journal of   Waterway Port Coastal & Ocean Engineering-ASCE, 2014, 140(4), 86-95.

    (19) Li L., Yuan S., Amini F., et al. Numerical study of combined wave   overtopping and storm surge overflow of HPTRM strengthened levee. Ocean   Engineering, 2015, 97, 1-15.

    ......


    在研项目

    1. 国家自然基金委重点项目,基于数字孪生技术的长江下游感潮河网地区多目标调度研究,主持

    2. 国家自然基金委面上项目,非恒定交汇流物质输移与水力调控,主持

    3. 国家自然基金委青年基金,平原河网交汇处复杂河床下污染物迁移转化规律,主持

    4. 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,主持

    5. 江苏省杰青项目,平原河网水动力学,主持

    6. 中央高校优青团队培育建设项目,水动力系统理论研究,主持

    ......


    人主页

    https://www.yicode.org.cn/people/yuan-sai-yu/

    https://www.researchgate.net/profile/Saiyu_Yuan