þDoctoral Supervisor
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Current Professional Societies
1. Director of Sub-association for Wind Power Structures, China Steel Construction Society;
2. Deputy Secretary-General of the Professional Committee on Coastal and Offshore Engineering Disaster and Environmental Protection, Seismological Society of China.
Research Areas
1. bridge structure seismic;
2. Disaster prevention and mitigation of offshore structures;
3. Fluid-structure dynamic interaction.
Honors
Tianjin Science and Technology Progress Award.
Publications
[1] Wang Piguang, Lu Haiqiang, Gao Zhidong, Zhao Mi, Du Xiuli. (2024). Seismic response analysis of monopile wind turbine under obliquely incident seismic waves. Earthquake Engineering and Resilience, 3(3), 416–431.
[2] Wang Piguang, Huang Yaru, Qu Yang, Yang Zhiwen, Du Xiuli. (2024). The hydrodynamic pressure analysis and simplified calculation method of added mass of oscillating horizontal cylinder in finite water depth. Ocean Engineering, 310, 118615.
[3] Wang Piguang, Lyu Siyu, Qu Yang, Zhao Mi, Du Xiuli. (2024). Analytical solution and simplified formula for added mass of horizontal and vertical motions of truncated cylinders under earthquake action. China Ocean Engineering, 38(1), 54–67.
[4] Wang Piguang, Yu Wanli, Zhao Mi, Du Xiuli. (2024). Effects of wind-wave-current-earthquake interaction on the wave height and hydrodynamic pressure based on CFD method. Ocean Engineering, 305, 117909.
[5] Wang Piguang, Huang Yiming, Zhao Mi, Cheng Xinglei, Du Xiuli. (2024). Analytical solution for simplifying the pile-soil interaction to a spring-damping system under horizontal vibration. Soils and Foundations, 64(3), 101469.
[6] Wang Piguang, Lu Ranran, Yan Qiushi, Bao Xin, Zhang Junqi, Liu Lei. (2022). The internal substructure method for shock wave input in 2D fluid-structure interaction analysis with unbounded domain using doubly-asymptotic ABC. Taylor & Francis.
[7] Wang Piguang, Zhang Chao, Wang Xiaojing, Zhao Mi, Du Xiuli. (2022). An accurate and efficient time-domain numerical model for simulating water-axisymmetric structure subjected to horizontal earthquakes. Elsevier, 85, 103234.
[8] Wang Piguang, Long Pengzhen, Zhao Mi*, Zhang Chao, Du Xiuli. (2021). Analytical solution of earthquake-induced hydrodynamic pressure on arrays of circular cylinders considering high-order scattered waves. Journal of Engineering Mechanics, 147(9), 04021051.
[9] Wang Piguang, Xu Yingduo, Zhang Xiaoling*, Xi Renqiang, Du Xiuli. (2021). A substructure method for seismic responses of offshore wind turbine considering nonlinear pile soil dynamic interaction. Soil Dynamics and Earthquake Engineering, 144, 106684.
[10] Wang Piguang, Zhang Wenqian, Xu Haibin, Zhao Mi*, Du Xiuli. (2021). A high-accuracy substructure method in the time domain for simulating pile-soil dynamic interaction in horizontal vibration. Computers and Geotechnics, 140, 104479.
[11] Wang Meng, Lu Haiqiang, Wang Piguang*, Nagarajaiah Satish, Du Xiuli. (2024). Damping enhancement solution for wind turbines through amplifying damping transfer systems. International Journal of Structural Stability and Dynamics, 24(9), 2450094.
[12] Zhao Mi, Yu Wanli, Wang Piguang*, Qu Yang, Du Xiuli. (2024). Numerical study on the aerodynamic and fluid–structure interaction of an NREL-5MW wind turbine. China Ocean Engineering, 1–16.
[13] Zhang Junqi, Wang Piguang*, Zhao Mi, Liu Lei, Qu Yanling, Du Xiuli. (2023). A scaled boundary finite element method for soil dynamic impedance of pile groups using hybrid quadtree mesh considering horizontal vibration. Engineering Analysis with Boundary Elements, 153, 226–241.
[14] Huang Yiming, Wang Piguang*, Zhao Mi, El Naggar M. Hesham, Du Xiuli. (2023). Analytical solution for dynamic responses of offshore wind turbines supported by pipe pile in radially heterogeneous soil. Ocean Engineering, 288, 116009.
[15] Huang Yiming, Zhao Mi, Wang Piguang*, Cheng Xinglei, Du Xiuli. (2023). Analytical study on the impedance of radial heterogeneous viscoelastic soil with two different methods. Arabian Journal for Science and Engineering, 48, 12991–13004.
[16] Huang Yiming, Zhao Mi, Wang Piguang*, Xu Haibin, Du Xiuli. (2023). Analytical solution of horizontal SV wave response considering pile shear deformation and soil free-field shear stress. Applied Mathematical Modelling, 119, 295–315.
[17] Huang Yiming, Zhao Mi, Wang Piguang*, Cheng Xinglei, Du Xiuli. (2022). An analytical solution of a horizontally vibrating pile considering water-pile-soil interaction on viscoelastic half-space. Elsevier, 260, 111959.
[18] Zhang Xiaoling, Xu Yingduo, Wang Piguang*, Xu Haibin, Du Xiuli. (2022). The u-p analytical solution for impedances of saturated soil to a laterally vibrating pile considering radial inhomogeneity. Soil Dynamics and Earthquake Engineering, 155, 107166.
[19] Zhao Mi, Liu Mindong, Wang Piguang*, Su Chengkun, Zhang Guoliang, Du Xiuli. (2022). A substructure model for water-solid interaction under obliquely incident earthquake in canyon site. Elsevier, 161, 107429.
[20] Zhao Mi, Su Chengkun, Wang Piguang*, Song Xiehong, Zhang Chao. (2022). A 2D non-water substructure model in time domain for breakwater-water-bedrock (layered) system excited by inclined seismic waves. Elsevier, 262, 112223.
Personal Statement
Wang Piguang, professor and Doctoral supervisor. He has been engaged in research and teaching from 2020 in Beijing University of Technology. He has presided two National Natural Science Foundation of China projects and one Postdoctoral Science Foundation of China. He has published more than one hundred SCI papers on international journals.
