TAN Weikai
Department of Civil and Environmental Engineering
National University of Singapore
twk19939.3@163.com+86 17312140293
EDUCATION
National University of SingaporeSingapore
Ph.D.in Coastal Engineering, supervisor: Prof.Yuan Jing Aug2016-Dec2020
Hohai University Nanjing, China
Bachelor in Hydraulic Engineering Sep 2012-Jun 2016
WORK EXPERIENCE
Southeast University Nanjing, China
Associate Professor Feb 2023-present
Huaiwei Technologies, Co., Ltd.Shenzhen, China
Senior Algorithm Engineer Nov 2021-Jan 2023
National University of Singapore Singapore
Research Fellow in Coastal Engineering Aug2020-Oct2021
Supervisor:Prof.Yuan Jing & Prof. Philip Li-Fan LIU
PUBLICATION
Tan.W.et al., 2024, Data-driven modelling of fully nonlinear regular wave load and secondary load cycles on an offshore wind turbine monopile. (underpreparation)
Tan.W., Alessandro Stocchino, Cai Z., 2024, Time series clustering of mete-ocean data at Pear River Estuary. (underpreparation)
Tan.W., Yuan, J, et al., 2023, Experiments and large eddy simulation of oscillatory flow over a rough wavy wall at high Reynolds number. JournalofFluidMechanics. (underreview)
Tan,W., Yuan, J., 2022. Drag-related wave-current interaction inside a dense submerged aquatic canopy. JournalofFluidMechanics.
Tan,W.and Yuan, J., 2019. Experimental study of sheet-flow sediment transport under nonlinear oscillatory flow over a sloping bed. CoastalEngineering. 147: 1-11.
Yuan, J. and Tan,W., 2018. Modeling net sheet-flow sediment transport rate under skewed and asymmetric oscillatory flows over a sloping bed, 136: 65-80. CoastalEngineering
Tan,W.and Yuan, J., 2021. A two-layer numerical model for coastal sheet-flow sediment transport. Journal of Geophysical Research: Ocean
Tan,W., D. P. Cao, Yuan, J., 2022. Numerical modelling of green-water overtopping flow striking a pedestrain on the crest of a sloped coastal structure. OceanEngineering.
Tan.W., Yuan, J, 2022. Numerical study of boundary layer streaming and sheet-flow sediment transport under progressive waves. ContinentalShelfResearch.
D. P. Cao, Tan,W.and Yuan, J., 2022. Assessment of wave overtopping risk for pedestrian visiting the crest area of coastal structure. AppliedOceanResearch.
Lai, B.L., Tan,W., et al., 2022, Numerical study on the compressive behavior of H-shaped steel reinforced concrete beam-columns. JournalofConstructionalSteelResearch.
Tan,W.and Yuan, J., 2019. A process-based sediment transport model for sheet flows with the pickup layer resolved in an empirical way, APACconference, Oct 2019
Research Interests
Coastal/Ocean Engineering
wave-current boundary layer
coastal sediment transport (e.g., sheet flows, vortex ripple) turbulence modelling (k−ω, wall-modelled large eddy simulation) 3D numerical wave tank (waves2Foam, Olaflow)
water tunnel experiments (Oscillatory Water Tunnel) physical-informed neural networks
machine learning & deep learning application in coastal/ocean engineering