Jun TANG

Professor, Ph.D

State Key Laboratory of Coastal and Offshore Engineering, Dalian University of Technology, P. R. CHINA

Email:  jtang@dlut.edu.cn

Education

PhD, 1999.09-2005.06, Port, Coastal and Offshore Engineering, Dalian University of Technology, P. R. CHINA

Bachelor, 1995.09-1999.07, Water Conservancy and Hydropower Engineering, Wuhan University of Hydraulic & Electrical Engineering, P. R. CHINA

Professional Career

2005.07-Present, State Key Laboratory of Coastal and Offshore Engineering, Dalian University of Technology, P. R. CHINA

2010.06-2011.05, Leverhulme Trust Visiting Fellow, Manchester Metropolitan University, UK

Research Interests

Coastal hydrodynamics & environmental processes, especially in: modeling surface water waves, longshore currents, near-shore currents, wave current interaction, typhoon wave, storm tide, shallow water flow; pollutant transport in coastal and offshore zones, coastal sediment transport and beach evolution; wave attenuation by vegetation, ecological revetment engineering; AI in coast and ocean engineering.

Selected Publications

Tang J ^*, Chen YX, Shen YM, Cao SR, 2024. Numerical study on stem-generated turbulence due to emergent rigid vegetation in water waves. Ocean Engineering 304, 117940.

Huang XY, Tang J ^*, Shen YM, 2024. Long time series of ocean wave prediction based on PatchTST model. Ocean Engineering 301, 117572.

Zhao CY, Tang J ^*, Shen YM, et al., 2021. Study on wave attenuation in following and opposing currents due to rigid vegetation. Ocean Engineering 236, 109574.

Zhao CY, Tang J ^*, Shen YM, 2021. Experimental study on solitary wave attenuation by emerged vegetation in currents. Ocean Engineering 220, 108414.

Tang J ^*, Li QS, Meng XY, et al., 2018. Numerical modeling of coastal waves and nearshore currents on adaptive quadtree grids. Journal of Waterway, Port, Coastal, and Ocean Engineering 144, 5: 04018011.

Tang J ^*, Lyu YG, Shen YM, et al., 2017. Numerical study on influences of breakwater layout on coastal waves, wave-induced currents, sediment transport and beach morphological evolution. Ocean Engineering 141, 375-387.

Tang J ^*, Shen YM, Causon D, et al., 2017. Numerical study of periodic long wave run-up on a rigid vegetation sloping beach. Coastal Engineering 121, 158-166.

Tang J ^*, Shen SD, Wang H, 2015. Numerical model for coastal wave propagation through mild slope zone in the presence of rigid vegetation. Coastal Engineering 97, 53-59.

Tang J ^*, Causon D, Mingham C, et al., 2013. Numerical study of vegetation damping effects on solitary wave run-up using the nonlinear shallow water equations. Coastal Engineering 75, 21-28.

Tang J ^*, Shen YM, Zheng YH, et al., 2004. An efficient computational model for solving the mild slope equation. Coastal Engineering 51, 2: 143-154.