谈伟恺

基本信息：

谈伟恺，博士，副研究员，硕士生导师，交通学院港航工程系教师。

所属团队：河流海洋研究中心

办公地点：东南大学九龙湖校区交通学院614室

联系方式：weikai_tan@seu.edu.cn

研究方向：

• 海岸边界层及泥沙运输

• 流固耦合数值模拟

• 海上漂浮式结构数值模拟

• 机器学习和深度学习在海洋工程问题中的运用

工作经历：

（1）2023.02-至今，东南大学交通学院，副研究员

（2）2021.11-2023.01，华为技术有限公司，高级算法工程师

（3）2020.09-2021.10，新加坡国立大学，博士后

教育经历：

（1）2016.08-2021.01, 新加坡国立大学，海岸工程，博士

（2）2012.09-2016.07，河海大学，水利水电工程，学士

科研项目：

（1）国家自然科学基金青年基金项目，52301316，斜交波流紊动边界层及其对海岸层移输沙的影响机理研究、2024-2026，主持。

（2）国家自然资源部海洋减灾中心，风暴潮灾害淹没风险快速计算模型研发合作研究，2023-2024，主持。

（3）东南大学新进教师科研启动费，2023-2026，主持。

期刊论文：

W Tan, A Stocchino, Z Cai, 2024. Subspace time series clustering of meteocean data to support ocean and coastal hydrodynamic modeling. Ocean Engineering.

Y Dong, W Tan, H Chen, J Yuan, 2024. Numerical modeling of wave interaction with a porous floating structure consisting of uniform spheres. Physics of Fluids.

D Cao, Z Lin, J Yuan, W Tan, H Chen, 2024. Swash-flow induced forces on human body standing on a smooth and impermeable slope: A numerical study with experimental validations. Engineering Applications of Computational Fluid Mechanics

W Tan, Yuan, J., 2022. Drag-related wave-current interaction inside a dense submerged aquatic canopy. Journal of Fluid Mechanics.

W Tan and Yuan, J., 2019. Experimental study of sheet-flow sediment transport under nonlinear oscillatory flow over a sloping bed. Coastal Engineering. 147: 1-11.

Yuan, J. and W Tan, 2018. Modeling net sheet-flow sediment transport rate under skewed and asymmetric oscillatory flows over a sloping bed, 136: 65-80. Coastal Engineering

W Tan and Yuan, J., 2021. A two-layer numerical model for coastal sheet-flow sediment transport. Journal of Geophysical Research: Ocean

W Tan, D. P. Cao, Yuan, J., 2022. Numerical modelling of green-water overtopping flow striking a pedestrain on the crest of a sloped coastal structure. Ocean Engineering.

W Tan, Yuan, J, 2022. Numerical study of boundary layer streaming and sheet-flow sediment transport under progressive waves. Continental Shelf Research.

D. P. Cao, W Tan and Yuan, J., 2022. Assessment of wave overtopping risk for pedestrian visiting the crest area of coastal structure. Applied Ocean Research.

Lai, B.L., W Tan, et al., 2022, Numerical study on the compressive behavior of H-shaped steel reinforced concrete beam-columns. Journal of Constructional Steel Research.

W Tan and Yuan, J., 2019. A process-based sediment transport model for sheet flows with the pickup layer resolved in an empirical way, APAC conference, Oct 2019