WANG HAIJUN
School
School of Civil Engineering
Professional Title
Professor
Administrative Appointments
Deputy Dean
Discipline
Hydraulic and Hydropower Engineering
Contact Information
27401127
bookwhj@163.com
Building 43, room D403 , Tianjin University (New campus), Jinnan District, Tianjin
Brief Introduction
Dr. Wang has been the deputy dean of hydraulic and hydropower engineering department, school of civil engineering, Tianjin University. His research is mainly focused on safety evaluation of structures, offshore wind foundations and fluid-structure interaction . He has published one monograph and over40 papers.
Education Background
- Bachelor’s Degree| NanChang University| Hydraulic and Hydropower Engineering| 2000
- Master’s Degree| Tianjin University| Hydraulic Structure Engineering| 2002
- Doctoral degree| Tianjin University| Hydraulic and Hydropower Engineering| 2006
Research Interests
- Dynamic evaluation of hydropower plant
- Offshore wind foundations
- Optimization design of hydraulic structure
Courses
Positions & Employments
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2006.1-2008.6
Dept. of Hydraulic and Hydro-power Engineering, School of civil Engineering | Tianjin University | Assistant Professor  -
2008.7-2014.12
Dept. of Hydraulic and Hydropower Engineering, School of civil Engineering | Tianjin University | Associate Professor  -
2015.1-2019.12
Hydraulic and Hydropower Engineering, School of civil Engineering | Tianjin University | Deputy Dean | Associate Professor 
Academic Achievements
- Papers
- [1] Zhang, S., Wang, H., Acquiring Design Value of Shear Strength of Foundation Soil, Water resource and hydropower engineering, 2001,32(12):69-72.
- [2] Wang, H., Lian, J., Yang, M., Structural model experiment research of the powerhouse in river channel, Water resource and hydropower engineering,2005,36(1):97-99.
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- [3] Wang, H., Zhang, S., Lian J., Rock stabilization analysis of diversion tunnel of a large-scale hydropower station, Chinese journal of geotechnical engineering, 2006,28(7):869-873.
- [4] Wang, H., Lian, J., Yan, X., Concrete damage analysis of the spiral case structure of Three Gorges Power Station, Journal of Sichuan University, 2006,38(4):24-28.
- [5] Lian, J., Yu, G., Wang, H., Influence of changing temperature on reinforcing bars of spiral casing structure in a hydropower station, Journal of Tianjin University, 2006,39(8):957-962.
- [6] Wang, H., Lian, J., An, G., Analysis of field vibration test for the hydropower house of two-row placed units, Journal of hydroelectric engineering, 2006,25(6):50-54.
- [7] Lian, J., Zhang, H., Wang, H., Prediction of vibration response of powerhouse structures by means of artificial neural network method, Journal of hydraulic engineering,2007,38(3):361-364.
- [8] Wang, H., Lian, J., Yang, M., Wang, R., Axial dynamic load identification of Francis turbine, Journal of vibration and shock, 2007,26(4):123-125.
- [9] Wang, H., Huang, J., Wang, R., Research on Stress Analysis Method for Periphery Concrete of Steel Spiral Case Keeping Internal Water Pressure, China rural water and hydropower, 2007,6:131-133,136.
- [10] Wang, H., Lian, J., Wang, R., Seismic Response Nonlinear Analysis of Hydro Powerhouse Structure, International Journal hydroelectric energy, 2008,26(3):88-91.
- [11] Lian, J., Bai, J., Wang, H., Further discussion on structural design problems of the powerhouse with double-row units arrangement, Journal of hydroelectric engineering, 2008,27(4):101-105.
- [12] Wang, H., Lian,J., Zhang, S., Dynamic identification based on Morlet wavelet transform and modified genetic algorithm, Journal of Harbin institute of technology,2009,4:193-196
- [13] Ma, C., Wang, H., Lian, J., Short-term electricity dispatch optimization of Ertan hydropower plant based on data by field tests, Journal of renewable and sustainable energy, 2011,3(6):1-15.
- [14] Lian, J., Liu, X., Zhang, L., Wang, H., Study and analysis on detailed damages of steel-concrete composite structure for wind turbine foundation, Water resources and hydropower engineering, 2011,42(1):48-53.
- [15] Wang, H., Zhang, X., Study on combined structural and hydraulic optimization for dividing pier of elbow draft tube of hydropower station, Water resources and hydropower engineering, 2011,42(10):97-100.
- [16] Qi, L., Liu, G., Wang, H., Analysis on seismic dynamic response of structure for offshore wind turbine with bucket foundation, Water resources and hydropower engineering, 2012,43(7):116-118.
- [17] He, L., Lian, J., Ma, B., Wang, H., Optimal sensor placement for large space structures based on distance coefficient-effective independence method, Journal of vibration and shock, 2013,32(16):13-18.
- [18] Chen, F., Lian, J., Wang, H., Upper-bound limit analysis of the vertical bearing capacity of circular shallow foundations, Journal of Hunan University, 2014,41(6):92-98.
- [19] Sun, L., Lian, J., Wang, H., Study on shape optimization and bearing capacity characteristics of composite pile foundation for offshore wind farm, Water resources and hydropower engineering, 2014,45(9):120-124.
- [20] Yu, T., Wang, H., Pore water pressure fluctuation and liquefaction analysis of subgrade for composite bucket foundation under cyclic loading, Rock and soil mechanics, 2014,35(3):820-826.
- [21] Yang, X., Chen, F., Lian, J., Wang, H., Numerical analysis and test verification of penetration resistance for bucket foundation installation considering effect of soil squeezing, Rock and soil mechanics, 2014,35(12):3585-3591.
- [22] Dong, X., Lian, J., Yang, M., Wang, H., Operational modal identification of offshore wind turbine structure based on modified stochastic subspace identification method considering harmonic interference, Journal of renewable and sustainable energy, 2014,6(3):1-29
- [23] Lian, J., Chen, F., Wang, H., Laboratory tests on soil-skirt interaction and penetration resistance of suction caissons during installation in sand, Ocean engineering, 2014,(84):1-13.
- [24] Wang, H., Tu, K., Yan, X., Application of general regression neural network to predict slope stability based on fruit fly optimization algorithm, International Journal Hydroelectric Energy,2015,33(1):124-126.
- [25] Liu, M., Yang, M., Wang, H., Study on subgrade reaction and punching of circular spread foundation for onshore wind turbines, Acta Energiae Solaris Sinica, 2015,36(5):1130-1135.
- [26] Wang,H., Mao, L., Lian, J., Structural vibration prediction for a hydropower house based on RVM method, Journal of vibration and shock,2015,(3):23-27.
- [27] Xu,G., Hang, W., Wang, H., Vibration response prediction of a powerhouse structure based on SSPSO-GRNN, Journal of vibration and shock,2015,(4):104-109.
- [28] Xu, G., Hang, W., Wang, H., Prediction of Vibration Response of Powerhouse Structures Caused by Flow Discharge, Journal of Tianjin University, 2015, 48(3):196-202.
- [29] Dong, X., Lian, J., Yang, M., Wang, H., Operational modal identification of an offshore wind turbine structure under harmonic interference,Journal of vibration and shock, 2015,34(10):152-156,172.
- [30] Liu, M., Lian, J., Yang, M., Wang, H., Vertical bearing capacity of wide-shallow bucket foundation, Chinese Journal of Geotechnical Engineering,2015,39 (2):379-385
- [31] Wang, H., Tu, K. Lian, J., Research on transfer path of vibrations of hydropower house based on structural intensity, Journal of hydraulic engineering, 2015,46(10):1247-1252,1260.
- Patents
- [1] Wang, H., Lian, J., Yu, T., “Single-pile foundation for offshore wind generation set”. CN Patent, ZL 201120405407.4
- [2] Wang, H., Yan, X., Lian, J., “Towing method for gravity foundation”. CN Patent, ZL 201310105975.6
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- [3] Wang, H., Sun, L., Lian, J., “Connecting component of cylindrical foundation and single pile”. CN Patent, ZL201310166815.2
- [4] Wang, H., Yang, X., Lian, J., “Offshore wind power foundation consisting of single pile, cylindrical foundations and anchor cable”. CN Patent, ZL 201310174029.7
- [5] Wang, H., Jiang, X., Lian, J., “Guide pipe frame-cylindrical structure combined offshore wind turbine foundation”. CN Patent, ZL201410049406.9
- [6] Wang, H., Zhou, H., Jiang, X., “Structure for increasing sloping dike wave-powered generation efficiency”. CN Patent, ZL201520042935.6