2022.09 至今          ：澳门新葡平台网址8883，长聘教轨副教授，博士生导师

2020.12 - 2022.09 ：[芬兰]阿尔托大学，博士后研究员

2022.06 - 2022.07 ：[英国]伦敦大学学院，访问学者

2016.12 - 2020.11 ：[芬兰]阿尔托大学，工学博士

2014.08 - 2016.09 ：[挪威]挪威科技大学 & [芬兰]阿尔托大学，工学硕士（双学位）

2010.09 - 2014.06 ：大连理工大学，工学学士

欢迎对极地探索怀有热情、对极地船海工程感兴趣的学生加入课题组！

聚焦极地船舶与海洋工程，主要方向包括：

1. 冰力学：实地冰力学特性测量、海冰破碎过程模拟等

2. 冰对结构载荷：冰载荷理论和概率预报方法、实测冰载荷分析等

3. 极地船舶性能：阻力和操纵性预报、船舶破冰数值模拟、船模实验等

4. 极地航行：航行策略、航线规划等

SCI期刊客座编辑：Water（2023），Journal of Marine Science and Engineering（2021，2023）

国际海洋、离岸及极地工程大会(OMAE2018）极地分会主席（2018、2022）

Marine Structures、Ocean Engineering等十余个国际SCI期刊审稿人

英国克兰菲尔德大学“Structural Integrity”硕士课程客座讲师

国家自然科学基金青年基金，浮冰海域船体结构冰载荷随机特性研究，主持

中船-交大前瞻基金重点项目，冰水桨耦合破冰船连续破冰工况性能数值模拟与冰激振动噪声预报方法研究，主持

上海市科委启明星扬帆专项，极地商船破冰性能研究，主持

澳门新葡平台网址8883“双一流”建设项目人才科研启动项目，主持

欧盟/俄罗斯，跨边境合作项目，芬兰-俄罗斯边境内河航运未来发展(INFUTURE)项目子课题，主持

主持其他横向科研项目3项，参与多个欧盟、芬兰科学院、英国劳氏基金会项目

国际期刊论文

1. Kondratenko, A. A., Kulkarni, K., Li, F., Musharraf, M., Hirdaris, S., & Kujala, P. (2023). Decarbonizing shipping in ice by intelligent icebreaking assistance: A case study of the Finnish-Swedish winter navigation system. Ocean Engineering, 286, 115652.
   

2. Jiang, Z., Li, F., Mikkola, T., Kujala, P., & Hirdaris, S. (2023). A Boundary Element Method for the Prediction of Hydrodynamic Ship–Ice–Wave Interactions in Regular Waves. Journal of Offshore Mechanics and Arctic Engineering, 145(6), 061601.
   

3. Liu, C., Musharraf, M., Li, F., & Kujala, P. (2022). A data mining method for automatic identification and analysis of icebreaker assistance operation in ice-covered waters. Ocean Engineering, 266, 112914.

4. Huang, L., Li, F., Li, M., Khojasteh, D., Luo, Z., & Kujala, P. (2022). An investigation on the speed dependence of ice resistance using an advanced CFD+ DEM approach based on pre-sawn ice tests. Ocean Engineering. 

5. Li, F., & Huang, L. (2022). A review of computational simulation methods for a ship advancing in broken ice. Journal of Marine Science and Engineering.

6. Tarovik, O., Yakimov, V., Dobrodeev, A., & Li, F. (2022). Influence of seasonal and regional variation of ice properties on ship performance in the Arctic. Ocean Engineering.

7. Li, F., Lu, L., Suominen, M., & Kujala, P. (2021) Short-term statistics of ice loads on ship bow frames in floe ice fields: full-scale measurements in the Antarctic ocean. Marine Structures.

8. Li, F., Suominen, M., Lu, L., & Kujala, P., Taylor, R. (2021). A probabilistic method for long-term estimation of ice loads on ship hull. Structural Safety.

9. Li, F., Suominen, M., & Kujala, P. (2021). Ship performance in narrow ice channel: model-scale test and numerical investigation. Ocean Engineering.

10. Bergström, M., Li, F., Suominen, M., Kujala, P. (2021). A goal-based approach for selecting a ship's polar class. Marine Structures.

11. Li, F., Kõrgesaar, M., Kujala, P., Goerlandt, F. (2020). Finite Element based meta-modeling of ship-ice interaction at shoulder and midship areas for ship performance simulation. Marine Structures.

12. Li, F., Goerlandt, F., & Kujala, P. (2020). Numerical simulation of ship performance in level ice: A framework and a model. Applied Ocean Research.

13. Shamaei, F., Bergström, M., Li, F., Kujala, P., & Taylor, R. (2020). Shamaei F, Bergström M, Li F, Taylor R, Kujala P. Local pressures for ships in ice: Probabilistic analysis of full-scale line-load data. Marine Structures.

14. Xu, Y., Kujala, P., Hu, Z., Li, F., & Chen, G. (2020). Numerical simulation of level ice impact on landing craft bow considering the transverse isotropy of Baltic Sea ice based on XFEM. Marine Structures.

15. Suominen, M., Li, F., Lu, L., Kujala, P., Bekker, A., & Lehtiranta, J. (2020). Effect of Maneuvering on Ice-Induced Loading on Ship Hull: Dedicated Full-Scale Tests in the Baltic Sea. Journal of Marine Science and Engineering.

16. Li, F., Kotilainen, M., Goerlandt, F., & Kujala, P. (2019). An extended ice failure model to improve the fidelity of icebreaking pattern in numerical simulation of ship performance in level ice. Ocean Engineering.

17. Milaković, A. S., Li, F., von Bock und Polach, R. U. F., & Ehlers, S. (2019). Equivalent ice thickness in ship ice transit simulations: overview of existing definitions and proposition of an improved one. Ship Technology Research.

18. Milaković, A. S., Li, F., Marouf, M., & Ehlers, S. (2019). A machine learning-based method for simulation of ship speed profile in a complex ice field. Ship and Offshore Structures.

19. Li, F., Goerlandt, F., Kujala, P., Lehtiranta, J., & Lensu, M. (2018). Evaluation of selected state-of-the-art methods for ship transit simulation in various ice conditions based on full-scale measurement. Cold Regions Science and Technology.

发表国际会议论文及专著20余篇

上海海外高层次人才

上海市青年科技英才扬帆计划

2020年度国家优秀自费留学生