【工作经历】

2022.02至今：澳门新葡平台网址8883，澳门新葡平台网址8883，土木工程系，长聘教轨副教授

2020.03-2022.01：罗格斯大学，机械与航天工程系，博士后

2019.01-2020.02：加州大学洛杉矶分校，航天与机械工程系，博士后

2017.11-2018.12：佛罗里达州立大学，航天与机械工程系，博士后

【教育背景】

2014.10-2017.09：横滨国立大学，城市创新学院，土木工程系，博士

2012.10-2014.09：横滨国立大学，城市创新学院，土木工程系，硕士

2011.09-2012.09：澳门新葡平台网址8883，澳门新葡平台网址8883，土木工程系，硕士在读

2007.09-2011.07：西安交通大学，人居环境与建筑工程学院，土木工程系，学士

1. 钝体空气动力学

2. 结构抗风设计

3. 海洋风机空气动力学

4. 流固耦合
   

5. 数据驱动流体动力学

• Marques Ribeiro, H. H., Yeh, C.-A. Zhang, K. & Taira, K. (2022) Wing sweep effects on laminar separated flows. Journal of Fluid Mechanics, accpeted.

• Zhang, K. & Haque, N. (2022) Wake interactions between two side-by-side circular cylinders with different sizes. Physical Review Fluids, 7, 064703.

• Burtsev, A., He, W., Hayostek, S., Zhang, K., Theofilis, V., Taira, K. & Amitay, M. (2022) Linear modal instabilities around post-stall swept finite aspect ratio wings at low Reynolds numbers. Journal of Fluid Mechanics, 944, A6.

• Zhang, K., Taira, K. (2022) Laminar vortex dynamics around forward-swept wings. Physical Review Fluids, 7, 024704.

•  Zhang, K., Shah, B. and Bilgen, O. (2022) Low-Reynolds-number aerodynamic characteristics of airfoils with piezocomposite trailing control surfaces. AIAA Journal, 1-6.

• Morimoto, M., Fukami, K., Zhang, K. and Fukagata, K. (2022). Toward practical uses of neural networks for fluid flow estimation. Neural Computing and Applications, 34, 3647–3669.
  

• Ping, H., Zhu, H., Zhang, K., Zhou, D., Bao, Y. and Han, Z. (2021). Vortex-induced vibrations of two rigidly coupled circular cylinders of unequal diameters at low Reynolds number. Physics of Fluids, 33, 103603.

• Fukami, K., Murata, T., Zhang, K. and Fukagata, K. (2021). Sparse identification of nonlinear dynamics with low-dimensionalized flow representations. Journal of Fluid Mechanics, 926, A10.

• Morimoto, M., Fukami, K., Zhang, K., Nair, A. G. and Fukagata, K. (2021). Convolutional neural networks for fluid flow analysis: toward effective metamodeling and low-dimensionalization. Theoretical and Computational Fluid Dynamics, 35, 633–658.

• Zhang, K., Hayostek, S., Amitay, M., Burtsev, A., Theofilis, V. and Taira, K. (2020). Laminar separated flows over finite-aspect-ratio swept wings. Journal of Fluid Mechanics, 905, R1.
  

• Zhang, K., Zhou, D., Katsuchi, H., Yamada, H., Han, Z. and Bao, Y. (2020). Bistable states in the wake of a wavy cylinder. Physics of Fluids, 32(7), 074112.

• Zhang, K., Hayostek, S., Amitay, M., He, W., Theofilis, V. and Taira, K. (2020). On the formation of three-dimensional separated flows over wings under tip effects. Journal of Fluid Mechanics, 895, A9.

• Zhang, K., Katsuchi, H., Zhou, D., Yamada, H., Bao, Y., Han, Z. and Zhu, H. (2018). Numerical study of flow past a transversely oscillating wavy cylinder at $Re$= 5000. Ocean Engineering, 169, 539-550.
  

• Zhang, K., Katsuchi, H., Zhou, D., Yamada, H. and Lu, J. (2018). Large eddy simulation of flow over inclined wavy cylinders. Journal of Fluids and Structures, 80, 179-198.

• Zhang, K., Katsuchi, H., Zhou, D., Yamada, H., Zhang, T. and Han, Z. (2017). Numerical simulation of vortex induced vibrations of a flexibly mounted wavy cylinder at subcritical Reynolds number. Ocean Engineering, 133, 170-181.

• Zhang, K., Katsuchi, H., Zhou, D., Yamada, H. and Han, Z. (2016). Numerical study on the effect of shape modification to the flow around circular cylinders. Journal of Wind Engineering and Industrial Aerodynamics, 152, 23-40.