杨毅锋
岗位:导师
邮箱:yangyifeng@scut.edu.cn
个人简介
杨毅锋,华南理工大学教授,国家高层次青年人才计划(海外)入选者。长期从事水波动力学及波浪–结构物相互作用研究。在水弹性力学理论、非线性波浪-结构物耦合机理分析等方面积累了丰富的研究经验。主持英国自然环境研究曙项目1项、英国工程与物理科学研究曙子课题1项,全国重点实验室开放基金1项。曾获英国劳氏教育基金会博士奖学金、伦敦大学学院优秀博士论文、机械工程系院长科研奖等。以第一/通讯作者在国内外高水平学术期刊发表SCI论文20篇,包括流体力学顶级期刊Journal of Fluid Mechanics 4篇、Physical Review Fluids 2篇和Ocean Engineering 6篇。
更多详情参见:https://www2.scut.edu.cn/jtxy/2026/0526/c35047a627904/page.htm
研究兴趣
1.线性与非线性水弹性力学;
2.海洋结构物波浪响应及超大型浮体动力学;
3.极地冰区水波动力学。
教育和工作经历
2026年5月 至今,华南理工大学,土木与交通学院,船舶与海洋工程系,教授
2024年4月~2026年4月,英国伦敦大学学院(UCL),博士后,合作教授:吴国雄教授
2023年12月~2024年3月,英国克兰菲尔德大学,研究助理
2019年9月~2023年11月,英国伦敦大学学院(UCL),机械工程,博士,导师:吴国雄教授、Giles Thomas教授
2015年9月~2019年6月,浙江大学,船舶与海洋工程,学士科研项目经历
1.上海交通大学海洋工程全国重点实验室开放基金,波浪与薄膜型浮式光伏结构流固耦合动力特性研究,2025/01–2026/12,主持。
2.英国 Natural Environment Research Council (NERC),HyAIce-Dr: AHybrid Hydrodynamic–AI Framework for Predicting Ice Floe Drift in the Arctic Marginal Ice Zone,2025/06–2026/05,主持。
3.UK National Clean Maritime Research Hub, EPSRC,Multiscale Computational Modelling for Maximising the Energy Efficiency and Underwater Noise Reduction of Air Lubrication Systems,2025/01–2026/01,子课题负责人。
4.Sepuluh Nopember Institute of Technology (ITS), Indonesia, Global Learning Series Program – Inviting as a Visiting Lecturer,2025/05 – 2025/11, 主持。
教学
本科生教学:
1. 讲授《海洋机器人与智能系统》
2. 讲授《流体力学》课程
研究生教学:
1. 讲授《Hydrodynamics》课程
代表性作论文
期刊论文 (* 通讯作者):
[1] Cen, Y. H., Zhuang, Q. Z., Liang, D. F., Tezdogan, T. and Yang, Y. F. *(2026). Performance of a novel axisymmetric wave-concentrator-integrated oscillating water column system. Ocean Engineering, 360, 126127. (JCR: Q1)
[2] Yang, Y. F. and Wu, G. X. (2025). Wave interaction with a large number of ice floes of arbitrary shapes. Physical Review Fluids, 10(12), 124804. (JCR: Q2)
[3] Yang, Y. F. and Wu, G. X. (2025). A uniform current passing bodies submerged beneath an ice sheet at critical Froude numbers. Journal of Fluid Mechanics, 1018, A45. (JCR: Q1)
[4] Deng, Y. F., Zhang, S. Y., Yang,Y. F.*, Zhang, B. F., Wang, Y. F., Chen, J. H. and Hou, W. P. (2025). Aerodynamic damping in decoupled dynamic modeling of floating offshore wind turbines. Ocean Engineering, 340, 122327. (JCR: Q1)
[5] Deng, Y. F., Zhu, C. Z., Zhang,S. Y., Yang, Y. F.* and Zhang, B. F. (2025). A novel coupling framework for integrating turbine and substructure dynamics of floating offshore wind turbines. Ocean Engineering, 340, 122307. (JCR: Q1)
[6] Mi, C. H., Verdin, P. G., Nair,A., Lyu, X. C., Yang, Y. F.*, Sherif, A., Silva, D. and Huang, L. F.(2025). An experimental study on the hydrodynamic performance of modular rope mesh floating solar platforms. Ocean Engineering, 339, 122175. (JCR: Q1)
[7] Yang, Y. F., Huang, L. F. and Meylan, M. H. (2025). Wave interaction with multiple floating elastic plates with arbitrary constraints near a sloping beach. Physics of Fluids, 37 (3). (JCR: Q1)
[8] Yang, Y. F., Mi, C. H., Ou, B. J., Wong, A., Duffy, J. G., Wood, T., Utama, I.,Chen, W. C. and Huang, L. F. (2024) A comparative experimental study on the hydrodynamic performance of two floating solar structure with a break water inwaves. Solar Energy, 284, 113029. (JCR: Q1)
[9] Yang, Y. F. and Huang, L. F. (2024). Waves and structural strain induced by a uniform current flow underneath a semi-infinite floating solar coverage. Physical Review Fluids, 9, 094804. (JCR: Q2)
[10]Yang, Y. F., Wu, G. X. and Ren, K.(2024). Hydroelastic wave interaction with a circular crack of an ice-cover in a channel. Journal of Fluids and Structures, 13, 104173. (JCR: Q1)
[11] Huang, L. F., Yang, Y. F.*, Khojasteh, D., Ou, B. J. and Luo, Z. H. (2024). Floating solar power loss due to motions induced by ocean waves: an experimental study. Ocean Engineering, 312, 118988. (JCR: Q1)
[12] Yang, Y. F., Wu, G. X. and Ren, K.(2024). Interaction between a uniform current and a submerged cylinder in a marginal ice zone. Journal of Fluid Mechanics, 984, A50. (JCR: Q1)
[13] Yang, Y. F., Ren, K., Zhou, B. Z., Sun,S. Y. and Huang, L. F. (2024). Wave interaction with multiple adjacent floating solar panels with arbitrary constraints. Physics of Fluids, 36, 3. (JCR:Q1)
[14] Sun, S. Y., Zeng, F. R., Yang, Y. F.* and Wang, W. L. (2023). Oblique water entry of a curved foil with varying speed. Physics of Fluids, 35, 122101. (JCR: Q1)
[15] Yang, Y. F., Zheng, Y. Q., Ge, H. and Wang, C. Z. (2023). Nonlinear interactions between solitary waves and structures in a steady current. Ocean Engineering, 274, 113920. (JCR:Q1)
[16] Yang, Y. F., Wu, G. X. and Ren, K.(2022). Hydroelastic wave diffraction by a vertical circular cylinder standing in a channel with an ice cover. Journal of Fluid Mechanics, 941, A13.(JCR: Q1)
[17] Yang, Y. F., Wu, G. X. and Ren, K.,(2021). Three-dimensional interaction between uniform current and a submerged horizontal cylinder in an ice-covered channel. Journal of Fluid Mechanics, 928, A4. (JCR: Q1)
[18] Yang, Y. F. and Wang, C. Z. (2020). Finite element analysis of second order wave resonance by multiple cylinders in a uniform current. Applied Ocean Research, 100, 102132. (JCR: Q1)
会议论文 (* 通讯作者):
[1] Yang, Y. F.* and G. X. Wu (2026). Interaction of a uniform current with acylinder submerged beneath a defective ice sheet. 41st International Workshop on Water Waves and Floating Bodies. Plitvice, Croatia
[2] Yang, Y. F.* and G. X. Wu (2025). Wave interaction with a large number offloating ice sheets of arbitrary shapes: exact and wide space-approximation approaches. 40th International Workshop on Water Waves and Floating Bodies. Shanghai, China
[3] Yang, Y. F.*, Ren, K., Huang, L. F. and Meylan, M. H. (2024). Long wave interaction with a moored elastic plate floating near an inclined beach. 39th International Workshop on Water Waves and Floating Bodies. St Andrews,Scotland, UK.
[4] Ren. K. and Yang, Y. F.(2023). Wave interaction with a floating finite rectangular plate in a channel. 38th International Workshop on Water Waves and Floating Bodies. Ann Arbor, MI, USA.
[5] Yang, Y. F.*, Lv, H. and Wang, C. Z. (2019). Time domain analysis of second-order wave interactions with multiple cylinders in a steady current. The 30th National Hydrodynamics Conference. Hefei University of Technology. Hefei,China.
