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冯兴亚
助理教授
0755-88015277
fengxy@sustech.edu.cn

个人简介

 冯兴亚,1989年出生,助理教授,博士生导师。2016年1月获得新加坡国立大学NUS海洋工程博士学位,2016-2019年先后于新加坡国立大学、牛津大学从事博士后研究工作。2019年加入南方科技大学。研究领域为海洋工程水动力学,专注于波浪理论,波浪与海工结构相互作用,以及海工流体力学等。在博士期间提出了非线性水波-多浮体耦合数学模型,开发和拓展了计算多浮体系统水动力响应的国际领先的数值波浪水池代码,已成功应用于多个海洋工程科研项目。2017年于法国船级社BV深海技术研发中心担任研发工程师,积累了一定的海洋工程实践经验。在牛津大学期间,冯博士在波浪水池试验方法上取得创新性进展,大大减少了试验成本和提高了试验效率,对海洋工程结构的模型水池试验方法研究具有重要意义,具有广阔的应用前景。 

 

 教育背景

 2011 - 2016, 博士,新加坡国立大学,海洋工程 

2007 - 2011, 本科,河海大学,水利水电工程 

 

工作经历

 2019.09 - 至今,南方科技大学,海洋科学与工程系,助理教授

2018.03 – 2019.09,牛津大学,工程科学系,博士后

2017.01 – 2018.02,法国船级社,深海技术研发中心,研发工程师

2016.01 – 2017.01, 新加坡国立大学,土木与环境工程系,Research Fellow 

 

 科研项目 

 中英-合作海洋可再生能源-作用于下一代海上风机的极限波浪载荷机理(https://www.ukchn-core.com/ ),英国自然科学基金EPSRC,参与 

一种评估浮体LNG船动态响应系统的可靠高效方法和工具研发,新加坡海洋局创新基金MPA,参与 

 

荣誉奖项

 杰出青年学者奖 (Outstanding Young Researcher Award), 第27届 KKHTCNN 亚洲土木联盟会议, 2014 

 

发表论著

 Journal papers期刊 

1. X. FENG, P.H. Taylor, R. Willden, S. H. Day, S. Dai, T.A.A. Adcock*. Experimental and numerical analysis of higher harmonics of wave loads on a vertical cylinder (Journal of Fluid Mechanics, under review) 

2. X. FENG*, Analysis of higher harmonics in a focused water wave group by a nonlinear potential flow model. Ocean Engineering. Accepted 

3. X. FENG*, X.B. Chen & F. Dias. 2018, A potential flow model with viscous dissipation based on a modified boundary element method. Engineering Analysis with Boundary Elements. Vol. 97, pp1-15. 

4. D. Zhao, Z. Hu*, K. Zhou, G. Chen, X. Chen X. FENG, 2018, Coupled analysis of integrated dynamic responses of side-by-side offloading FLNG system. Ocean Engineering, Vol.168, pp60-82. 

5. D. Zhao, Z. Hu*, G. Chen, X. Chen X. FENG, Coupling analysis between vessel motion and internal nonlinear sloshing for FLNG application. Journal of Fluids and Structures, Vol. 76, pp431-453. 

6. X. FENG, W. Bai*, X.B. Chen, On the viscous effect of wave resonances between side-by-side vessels. Ocean Engineering, Vol. 145, pp44-58. 

7. X. FENG, W. Bai*, 2017, Hydrodynamic analysis of marine multibody systems by a nonlinear coupled model. Journal of Fluids and Structures, Vol. 70, pp72-101. 

8. X. FENG, W. Bai*, 2015, Wave resonances in a narrow gap between two barges using fully nonlinear numerical simulation. Applied Ocean Research. Vol. 50, pp119-129 

9. W. Bai*, X. FENG*, R. Eatock Taylor, K.K. Ang, 2014, Fully nonlinear analysis of near-trapping phenomenon around an array of cylinders. Applied Ocean Research. Vol. 44, pp71-81. 

Conference 会议 

1. X. FENG, R. Willden, B. Zhen, T. A. Adcock. Numerical analysis of nonlinear wave loads on an offshore wind turbine monopile. Proceedings of ASME 38th International Conference on Ocean, Offshore & Arctic Engineering (OMAE), Glasgow, UK, 2019. 

2. T. A. Adcock, X. FENG, T. Tang, T. S. Bremer, A. H. Day, S. Dai, Y. Li, Z. Lin, W. Xu, P.H. Taylor. Application of phase decomposition to the analysis of random time series from wave basin tests. Proceedings of ASME 38th International Conference on Ocean, Offshore & Arctic Engineering (OMAE), Glasgow, UK, 2019. 

3. Z.Y. Tay, X. FENG, B. Li. Performance of a Novel Pitching Wave Energy Converter as Floating Breakwater in Tropical Sea. Proceedings of the 13th European Wave and Tidal Energy Conference (EWTEC), Napoli, Italy, 2019. 

4. X. Chen, H. Liang, R. Li, X. FENG. Ship seakeeping hydrodynamics by multi-domain method. Proceedings of the 32nd Symposium on Naval Hydrodynamics, Hamburg, Germany, 2018. 

5. H. Liang, X.B. Chen, X. FENG. Wave-making problem by a vertical cylinder: Neumann-Kelvin theory versus Neumann-Michell theory. Proceedings of the 33th International Workshop on Water Waves and Floating Bodies (IWWWFB), Breast, France, 2018. 

6. W. Zhao, H. Wolgamot, B. Li, X. FENG, K.H. Chua. Resonant fluid motion in narrow gaps between FLNG and LNG carrier, OTC Asia, Kuala Lumpur, Malaysia, 2018. 

7. X. FENG, X.B. Chen, H. Liang & F. Dias. Analysis of dissipation on gap resonance between side-by-side barges. 10th International Workshop on Ship and Marine Hydrodynamics, Taiwan, Nov 2017. 

8. X. FENG, W. Bai. Coupled motion equations for two interconnected floating bodies in an auxiliary function approach. Proceedings of the 31th International Workshop on Water Waves and Floating Bodies (IWWWFB), Michigan, USA, 2016. 

9. X. FENG, W. Bai. Nonlinear time-domain simulation of interconnected floating bodies in a numerical wave tank. The Second Conference of Global Chinese Scholars on Hydrodynamics (CCSH), Wuxi, China, 2016. 

10. W. Bai, X. FENG, X. Chen, K.K. Ang. On the modeling of nonlinear wave-wave and wave-body interactions in a realistic sea state. Proceedings of the 30th IWWWFB, Bristol, UK, 2015. 

11. X. FENG, W. Bai, K.K. Ang. Simulation of wave diffraction around side-by-side barges using a nonlinear decomposition model. Proceedings of the 27th KKHTCNN Symposium on Civil Engineering, Shanghai, China, 2014. 

12. X. FENG, W. Bai, K.K. Ang. Nonlinear simulation of wave resonances in a narrow gap between two barges. Proceedings of the 29th IWWWFB, Osaka, Japan, 2014. 

13. X. FENG, W. Bai, K.K. Ang. Time domain simulation of fully nonlinear wave interaction with an array of circular cylinders. Proceedings of the 25th KKCNN Symposium on Civil Engineering, Busan, Korea, 2012.