YUAN Saiyu

Name

Saiyu Yuan

Gender

Male

Date of Birth

Position

Professor

Graduated Institution

Hohai University

Major

Hydraulics and River Dynamics

Degree

PhD

Telephone   Number

E-mail

yuansaiyu@hhu.edu.cn

Research Interests

Hydraulics;   Turbulence; Fluid Mechanics; Fluvial hydrodynamics; Environmental Hydraulics;   Eco-hydraulics; River management

Awards & Honors

2022, First Prize of the Natural Science Award of the Ministry of   Education

2022, May Fourth Youth Award of Jiangsu Province

2021, Candidates for the National Talent Plan Youth   Project

2021, 333 High-level Talent Training   Project of Jiangsu Province

2019, China Association for Science and Technology   Excellent Chinese and Foreign Youth Exchange Program

2019, Recipient of Young Teacher Fund of   Fok Ying Tung Educational Foundation

2018, Association for Science and Technology   Youth Science and Technology Talent Promotion Project of Jiangsu   Province

2017, First Prize of Science and Technology Award   of Jiangsu Province

2017, Second Prize of Dayu Water Conservancy   Science and Technology Award

2017, Dayu Scholar of Hohai University

2015, Outstanding Doctoral Dissertation of Jiangsu   Province

2013, First Prize of Science and Technology Award   of Jiangsu Province

Achievements

Selected journal   publication:

(1)     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.

(2)     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.

(3)     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.

(4)     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.

(5)     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.

(6)     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.

(7)     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.

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

(9)     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.

(10)   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.

(11)   Yuan S., Li L., Amini F., et al.   Sensitivity of combined turbulent wave overtopping and storm surge overflow   response to variations in levee geometry. Journal of Coastal Research, 2015, 313(3):702-713.

(12)   Yuan S., Li L., Amini F., et al.   Numerical study of turbulence and erosion of an HPTRM-Strengthened Levee   under combined storm surge overflow and wave overtopping. Journal of Coastal Research, 2014,   293(1):142-157.

(13)   Xu, L., Yuan, S.,   Tang, H., Qiu, J., Xiao, Y., Whittaker, C., & Gualtieri, C. (2022).   Mixing dynamics at the large confluence between the Yangtze River and Poyang   Lake. Water Resources Research,   58(11), e2022WR032195.

(14)   Rahimi, H., Yuan, S.,   Tang, X., Lu, C., Singh, P., & Dehrashid, F. A. (2022). Study on   conveyance coefficient influenced by momentum exchange under steady and   unsteady flows in compound open channels. Water Resources   Management, 36(7), 2179-2199.

(15)   Tang, H., Yuan, S.,   & Cao, H. (2022). Theory and Practice of Hydrodynamic Reconstruction in   Plain River Networks. Engineering.

(16)   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.

(17)   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.

(18)   Tang, H., Luo, X., Yuan, S., Xiao, Y., Liang, D., & Gualtieri, C. (2022). Random-walk-path   solution of unsteady flow equations for general channel networks. Journal of Hydrology, 615, 128692.

(19)   Li, K., Tang, H., Yuan, S., Xiao, Y., Xu,   L., Huang, S., ... & Gualtieri, C. (2022). A field study of   near-junction-apex flow at a large river confluence and its response to the   effects of floodplain flow. Journal of Hydrology,   610, 127983.

(20)   Li, K., Tang, H., Yuan, S., Xu, L., Xiao, Y., & Gualtieri, C. (2022). Temporal variations of   sediment and morphological characteristics at a large confluence accounting   for the effects of floodplain submergence. International   Journal of Sediment Research, 37(5), 619-638.

(21)   Jiang, C., Constantinescu, G., Yuan, S., & Tang, H. (2022). Flow hydrodynamics, density contrast effects   and mixing at the confluence between the Yangtze River and the Poyang Lake   channel. Environmental Fluid Mechanics, 1-29.

(22)   Tang H, Cao H, Yuan S., Yang Xiao,   Chenyu Jiang, Carlo Gualtieri. A numerical study of hydrodynamic processes   and flood mitigation in a large river-lake system [J]. Water Management Research, 2020,   34, 3739-3760.

(23)   Tang H., Zhang H., Yuan S. Response   to discussion of hydrodynamics and contaminant transport on the degraded bed   at a 90-degree channel confluence. Environmental   Fluid Mechanics, 2018, 18(9), 1297–1299.

(24)   Tang H., Zhang H., Yuan S.   Hydrodynamics and contaminant transport on a degraded bed at a 90-degree   channel confluence. Environmental   Fluid Mechanics, 2018, 18(2), 443-463.

(25)   Xiao Y., Xia Y., Yuan S., et al.   Distribution of phosphorus in bed sediment at confluences responding to   hydrodynamics. Water Management,   2019, 172(3): 149-162.

(26)   Xiao Y., Xia Y., Yuan S., et al.   Flow structure and phosphorus adsorption in bed sediment at a 90° channel   confluence. Journal of Hydrodynamics,   2017, 29(5), 902-905.

(27)   Tang H., Li Q., Yuan S., et al.   Effect of aggregation on the adsorption of phosphorus onto air-dried sediment   in contrasting shear flow conditions. Journal   of Soils and Sediments, 2017, 17(8), 2177–2186.

(28)   Du Q., Tang H., Yuan S., et al.   Predicting flow rate and sediment in bifurcated river branches. Water Management, 2016, 169(4),   156-167.

(29)   Wang H., Tang H., YuanS., et   al. An experimental study of the incipient bed shear stress partition in   mobile bed channels filled with emergent rigid vegetation. Science China Technological Sciences,   2014, 57(6), 1165-1174.

(30)   Zhao H., Yan J., Yuan S., et al.   Effects of submerged vegetation density on turbulent flow characteristics in   an open channel. Water, 2019   11(10): 2154.

(31)   Tang H., Zhao H., Li Z., Yuan S., et   al. Phosphorus sorption to suspended sediment in freshwater. Water Management, 2017, 170(5),   231-242.

(32)   Tang H., Tian Z., Yan J., Yuan S.   Determining drag coefficients and their application in modelling of turbulent   flow with submerged vegetation. Advances   in Water Resources, 2014, 69, 134-145.

(33)   Jin G., Yang W., Xu H., Zhang Z., Yuan   S., et al. Density effects on solute release from streambeds. Hydrological Processes, 2020,   34(5), 1144-1153.

(34)   Zhang T, Xiao Y, Liang D, Tang H, Yuan S,   et al. Rainfall Runoff and Dissolved Pollutant Transport Processes Over Idealized   Urban Catchments. Front. Earth Sci.,   2020, 8:305.

(35)   Xiao, Y., Jia, H., Guan, D., Liang, D., Yuan,   S., Tang, H. (2021). Modeling clear-water scour around the high-rise   structure foundations (HRSF) of offshore wind farms. Journal of Coastal Research, 37(4), 749-760.

(36)   Xiao, Y., Jia, H., Guan, D., Liang, D., Yuan,   S., Tang, H. (2021). Experimental investigation on scour topography   around high-rise structure foundations. International Journal of Sediment Research, 36(3), 348-361.

(37)   Liu, J., Zhang, P., Xiao, Y., Wang, Z., Yuan,   S., Tang, H. (2021). Interaction between dual spherical particles during   settling in fluid. Physics of Fluids,   33(1), 013312.

(38)   Zhang, T., Xiao, Y., Liang, D., Tang, H.,   Xu, J., Yuan, S., ... & Luan, B. (2021). A two‐layer   model for studying 2D dissolved pollutant runoff over impermeable surfaces. Hydrological Processes, 35(5),   e14152.

(39)   Zhang, T., Xiao, Y., Liang, D., Tang, H.,   Xu, J., Yuan, S., & Luan, B. (2020). A physically-based model for   dissolved pollutant transport over impervious surfaces. Journal of Hydrology, 590, 125478.

(40)   Xin, P., Yu, X., Zhan, L.,   Cheng, H., & Yuan, S.   (2023). Surface water-groundwater interaction affects soil temperature   distributions and variations in salt marshes. Advances in Water   Resources, 104366.

(41)   Tang, X., Rahimi, H., Singh,   P., Yuan, S., & Lu, C.   (2023). Analytical Modeling of Mean Velocity Profile through Two-Layered   Fully Submerged Vegetation. Journal of Hydraulic   Engineering, 149(2), 04022041.

(42)   Dehrashid, F. A., Heidari,   M., Rahimi, H., Khoshkonesh, A., Yuan, S.,   Tang, X., & Wang, X. (2023). CFD modeling the flow dynamics in an open   channel with double-layered vegetation. Modeling Earth   Systems and Environment, 9(1), 543-555.

(43)   Xiao, Y., Liu, J., Zhang, P.,   Zhou, J., Liang, D., Wang, Z., Yuan, S., &   Tang, H. (2023). Experimental study of the settling of twin spherical   particles released side by side: The impact of particle size, fluid   viscosity, initial spacing, and particle density. International   Journal of Sediment Research, 38(1), 83-96.

(44)   Zhu, H., Lu, S., Wang, L.,   Xu, J., & Yuan, S. (2022).   Numerical Study of Mixing Process by Point Source Pollution with Different   Release Positions in a Sinuous Open Channel. Water,   14(12), 1903.

Projects

1. Recipient of Young Teacher Fund of Fok   Ying Tung Educational Foundation:The Response Mechanism of   Material Transport and Fish Movement Behavior at river confluence. Host

2.General   Fund of National Natural Science Foundation of China: Mass transport at   channel confluences with unsteady inflows and hydraulic regulation. Host

3. Youth Fund ofNational Natural Science Foundation of China: Pollutant transport -   transformation in confluence zones of plain river networks with the complex   morphology. Host

4. Sub-topic of National Key   R&D Program: Evolution and Treatment of Main Stream of Huaihe River and   Hongze Lake. Host

5. Project:Flood Control Evaluation of Ecological Comprehensive Treatment Project   on East Bank of Ganjiang River in Nanchang City. Host

6. Project: Shanghai Water   Water Resources Scheduling Implementation Rules Revision. Host  

……

Personal Website

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

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