Name:  Siying Wang

Title：Professor

Tel：  15972102044

Email：sywang@whut.edu.cn

Introduction

   Professor in the Department of Mechanics and Engineering Science, School of Physics and Mechanics, Wuhan University of Technology, Ph.D. in Fluid Mechanics from the University of Science and Technology of China. Research focuses on biological fluid mechanics and hydraulic engineering. Completed 2 National Natural Science Foundation of China (NSFC) projects and over 20 other research projects, authored 1 scholarly monograph, published 30+ academic papers, and secured 5 invention patents. Responsible for undergraduate courses such as Material Mechanics and Engineering Mechanics, as well as graduate course Advanced Fluid Dynamics. Spearheaded 1 university-lever key teaching reform project and contributed to multiple other teaching research programs. Courses have been recognized as a Provincial First-Class Course, a University Ideological and Political Demonstration Course, and awarded Second Prize in the Teaching Innovation Competition and Third Prize in the Micro-Lecture Competition in the Wuhan University of Technology.

Education Background

Ph.D in Fluid Mechanics, University of Science and Technology of China, China (6/2010)

B.S. in Theoretical and Applied Mechanics, University of Science and Technology of China, China (6/2005)

Professional experience

2024.7-present Professor, Department of Mechanics and Engineering Sciences, Wuhan University of Technology

2019.10-2024.6 Professor, Department of Engineering Structures and Mechanics, Wuhan University of Technology

2016.5-2019.9 Associate Professor, Department of Engineering Structures and Mechanics, Wuhan University of Technology

2017.3-2018.2 Visiting Scholar, Department of Mechanical and Aerospace Engineering, University of California, San Diego

2013.4-2016.4 Senior Engineer, Department of Hydraulic Research, Changjiang River Scientifi Research Institute

2010.7-2013.4 Engineer, Department of Hydraulic Research, Changjiang River Scientifi Research Institute

Areas of Research Interests/ Research Projects

Research interest mainly focus on the fluid-structure interaction problems in aquatic locomotion (e.g., fish swimming) and hydraulic engineering, specifically investigating the motion patterns, mechanical mechanisms, and flow-induced vibration mechanisms of aquatic organisms and water-related structures in complex flow fields. Completed 2 National Natural Science Foundation of China (NSFC) projects and 10+ major industry sponsored projects as a project leader and contributed to multiple national-level research programs and participated in 20+ engineering research projects as a core technical member. Selected projects are as following:

1) National Natural Science Foundation of China (General Program, No. 51479007), Research on Fish Movement Behavior and Mechanical Characteristics in Non-Uniform Flow Fields, 2015–2018.

2) National Natural Science Foundation of China (Youth Science Fund Project, No. 11102027), Numerical Simulation of Fluid-Flexible Body Coupled Motion in Non-Uniform Flow Fields, 2012–2014.

3) Natural Science Foundation of Hubei Provincial(Innovation Group Program, No.2015CFA026), Swimming Behavior Response of Characteristic Fish to Habitat Factors and Fishway Design Technology, 2015–2016.

4) Key Technology Research for Scientific Operation of Reservoir Groups in the Yangtze River Basin (Phase III, No. 0704178), Safety Study on Spillway Gate Discharge at Xiangjiaba Hydropower Station Under Current Conditions, 2022–2024.

5) Open Research Fund of Hubei International Joint Research Center for Fish Passage Technology (Key Project, No. HIBF2020003), Mechanisms of Hydraulic Condition Design for Fishways Based on Fish Ethology,  2020–2022.

6) Open Fund of Changjiang Institute of Water Resources and Hydropower Research (Key Project, No. CKWV2018459/KY), Mechanisms of Flow Field Construction in Fishways Using Blunt Bodies and Flexible Barriers, 2018–2020.

7) Independent Innovation Research Fund of Wuhan University of Technology ( No. 2017IVA065), Coupled Motion of Multiple Flexible Bodies in Moving Flow Fields, 2017–2018.

8) Fundamental Research Fund for State Public Beneficial Scientific Institutes of Changjiang River Scientific Research Institute (No. CKSF2015026SL), Fluid-Structure Interaction Characteristics of Flexible Bodies in Complex Flow Fields, 2015–2016.

Academic Achievement

Monograph:

1) Wang Siying. Research on Fluid Structure Coupling Motion of Flexible Bodies, Wuhan University of Technology Press, 2018.07. (In Chinese)

Papers：

2) Wang Siying, Wu Qibiao, Shi Xiaotao. Numerical simulation and deep neural network revealed drag reduction of micro-structured three-dimensional square cylinders at high Reynolds numbers[J]. Frontiers in Bioengineering and Biotechnology ,2022, 10:885962.

3) Chen Wei, Wang Siying, Shi Xiaotao, Rheem Chang-Kyu, Lin Yongshui, Liu Erpeng. Numerical simulation of surface roughness effects on the vortex- induced vibration of a circular cylinder at a subcritical Reynolds number[J]. International Journal of Naval Architecture and Ocean Engineering, 2022, 14: 100430.

4) Sun Chuanbao, Wang Siying*, Jia Laibing, Yin Xiezhen. Force measurement on coupled flapping flags in uniform flow[J]. Journal of Fluids and Structures. 2016, 61: 339-346.

5) Wang Siying, Huang Minghai, Yin Xiezhen. Numerical Simulation of Two Different Flexible Bodies Immersed in Moving Flow[J]. Chinese Physics Letter. 2015, 32(8): 084601.

6) Chen Ming, Jia Laibing, Wang Siying, et al.  Effects of Material Damping on Flag Flutter[J]. Science China (Technological Sciences). 2014, 57(1): 117-127.

7) Wang Siying, Duan Wengang, Yin Xiezhen. 2013. Transition Mode of Two Parallel Flags in Uniform Flow[J]. Chinese Physics Letter. 30(11): 110502.

8) Wang Siying, Tian Fangbao, Jia Laibing, et al. Secondary vortex street in the wake of two tandem circular cylinders at low Reynolds number[J]. Physical Review E. 2010, 81: 036305.

9) Wang Siying, Yin Xiezhen. A coupling method of simulating the induced oscillations of flexible plates in moving fluid[J]. Chinese Science Bulletin, 2010, 55(34): 3880-3888.

10) Wang Siying, Jia Laibing, Yin Xiezhen. Kinematics and forces of a flexible body in Karman vortex Street[J]. Chinese Science Bulletin, 2008,54(4): 556-561.

11) Duan Yongbin，Liu Zhongzan，Huang Minghai，Chen Zhiwei，Guo Chengyin，Wang Siying*.Swimming trajectory and kinematic pattern of red crucian carp in a sudden expansion flow field [J]. Chinese Journal of Ecology, 2024, 43(4): 937-945. (In Chinese)

12) Yu Hao，Jiang Genrui，Chen Junxiao，Lv Junpeng，Wang Siying*. Anlysisi of kinematic characteristics of tadpole uniform straight swimming based on image processing[J].Journal of Experimental Mechanics, 2023, 38(4): 483-495. (In Chinese)

13) Wang Siying, Ding Ning, Song Zhiwei, Shi Xiaotao*. Water wave control method based principle of gradient index lens[J]. Journal of Changjing River Scientific Research Institute, 2023, 40(1): 101-106. (In Chinese)

14) Wang Zhifei，Yang Beining，Wang Siying*.Study on influence factors and function rules on flow around a gate pier[J]. Advances in Science and Technology of Water Resources, 2022, 42(6):45-51. (In Chinese)

15) Ding Ning，Wang Zicong，Huang Minghai，Ji Ruxuan，Wang Siying*. Influences of flow path width and incoming flow velocity on Crucian’s motion pattern[J]. Journal of Changjing River Scientific Research Institute，2020, 37(3): 64-68.(In Chinese)

16) Wang Kaihui, Ji Ruxuan, Liu Zheheng, Wang Siying*. Karman gait of a Carassius auratus swimming in the wake of a circle cylinder[J]. Chinese Journal of Ecology, 2019, 38(12): 3771-3778.(In Chinese)

17) Wang Siying，Yang Wenjun，Huang Minghai，Wang Zhijuan. Fish passage and habitat restoration technique in Chian: state of the art[J]. Journal of Changjing River Scientific Research Institute，2017, 34(08): 11-17, 63.(In Chinese)

18) Wang Siying, Liu Xiangbei, Chenduan. Formation of atomization source caused by flood discharge flow nappe[J]. Journal of Changjing River Scientific Research Institute, 2015, 32(2): 53-57.(In Chinese)

19) Wang Siying, Chen Ming, Yin Xiezhen. The interaction between flexible bodies and moving fluid[J]. Mechanics and Practice, 2014, 36(5): 566-573. (In Chinese)

20) Wang Siying, Chen Duan, Hou Dongmei. Experimental research on the rainfall intensity in the source area of flood discharge atomization[J]. Journal of Changjing River Scientific Research Institute, 2013, 30(08): 70-74. (In Chinese)

21) Wang Siying, Wang Caihuan, Chen Duan. Advances in Research on Flood Discharge atomization[J]. Journal of Changjing River Scientific Research Institute, 2013,30(07): 53-58, 63.(In Chinese)

22) Wang Siying, Yin Xiezhen. A numerical method to simulate the coupled oscillations of flexible structures in flowing fluids[J]. Chinese Science Bulletin, 2010, 55(30): 2894-2903. (In Chinese)

23) Wang Siying, Sun Chuanbao, Yin Xiezhen. Experiment of flapping coupling modes between two parallel flags in a uniform flow[J]. Journal of Experimental Mechanics, 2010, 4: 401-407. (In Chinese)

24) Wang Siying, Jia Laibing, Yin Xiezhen. Kinematic and dynamic analysis of flexible objects in Karman vortex street[J]. Chinese Science Bulletin, 2008, 53(22): 2687-2691. (In Chinese)

25) Gao Dongjin, Wang Kaihui, Duan Yongbin, Wang Siying *. Numerical study of self-propulsion swimming behavior of Crucian Carp in various flow[C]. 24th IAHR-APD congress, Wuhan, 2024.10.14-17.

26) Wang Siying.Motion characteristics and mechanical properties of fish swimming behavior in complex flow fields[C]. The First International Symposium on Aquatic Organism Migration Channel Restoration, Yichang 2023, 3.12-14.(In Chinese)

Patents：

[1]. Wang Siying, Lin Yongshui, Li Xu, Chen Wei, Hu Wulong, Chi Qingjia, Jiao Bao, Ding Ning, Wang Kaihui, Yu Hao. A Method and device for gathering wave energy, 2022.2.22, China, ZL202110526989.X

[2]. Wang Siying, Ding Ning, Li Xu, Huang Minghai, Li Li, Lin Yongshui, Wang Kaihui, Jiao Bao, Chen Wei, Hu Wulong. A method to control the water wave propagation by setting underwater obstacles. 2020.10.13, China, ZL201911147520.4