助理教授 海洋科学与工程系

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海洋工程方向博士学位,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海洋科学与工程系。冯兴亚博士长期致力于水动力学研究,和相关势流理论和边界元方法,应用于海洋油气平台、海洋新能源开发等。

个人简介

研究领域

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。2018年加入牛津大学水动力学课题组,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。近期致力于海洋新能源开发, 并应用机器学习工具,开发新一代智能化海洋工程环境云预测和监测系统。


教学

OCE207 海洋工程水动力学

OCE5024 海洋结构物分析和设计


学术成果 查看更多

  1. Junpeng Liu, Xingya Feng*, Junnan Cui. 2023. Experimental study of extreme waves based on nonlinear Schrödinger equation under background of a random sea. Physics of Fluids. 35,4, 047118.
  2. Li, Zhiqiang, Chen, Dengshuo, Feng, Xingya*, Chen, Jian-Fei, 2023, Hydroelastic analysis and structural design of a modular floating structure applying ultra-high performance fiber-reinforced concrete. Ocean Engineering 2023, 277: 114266.
  3. Liu, Z., Qiuxiang Huang, Zongjun Li, Ye Li, Xingya Feng*. 2023. Partial confinement effects on the performance of a flapping foil power generator. Physics of Fluids, 35, 027108.
  4. Wei Shi, Xinmeng Zeng, Xingya Feng, Yanlin Shao, Xin Li, 2023,Numerical study of higher-harmonic wave loads and runup on monopiles with and without ice-breaking cones based on a phase-inversion method. Ocean Engineering 2023, 267: 113221.
  5. Xinmeng Zeng, Wei Shi, Xingya Feng, Yanlin Shao, Xin Li, 2023, Investigation of higher-harmonic wave loads and low-frequency resonance response of floating offshore wind turbine under extreme wave groups. Marine Structures, 2023, 89: 103401.
  6. Liu, Q., Feng*, X. 2022. A Machine Learning Model for Wave Prediction Based on Support Vector Machine. International Journal of Offshore and Polar Engineering. 32, 4, 394-401.
  7. Zhi-teng Gao; Xingya Feng; Zi-tan Zhang; Zheng-liang Liu; Xiao-xia Gao; Li-jun Zhang; Li, Shan; Li, Ye*; A brief discussion on offshore wind turbine hydrodynamics problem, Journal of Hydrodynamics, 2022, 34(1): 15-30.
  8. Dengshuo Chen; Xingya Feng*; Chao Hou;  Jian-Fei Chen; A coupled frequency and time domain approach for hydroelastic analysis of very large floating structures under focused wave groups, Ocean Engineering, 2022, 255: 111393. 
  9. Zhengliang Liu*; Fang-Bao Tian; Xingya Feng*; An efficient geometry-adaptive mesh refinement framework and its application in the immersed boundary lattice Boltzmann method, Computer Methods in Applied Mechanics and Engineering, 2022, 392: 114662.
  10. Liu, Qiang; Feng, Xingya*; Chen, Junru; Interfacial Friction Prediction in a Vertical Annular Two-Phase Flow Based on Support Vector Regression Machine, Water, 2021, 13(24). 
  11. Zhengliang Liu; Xingya Feng*; Simulation of free-surface flows using the Lattice Boltzmann method with the AMR technique, Proceedings of the Institution of Mechanical Engineers – Part C: Journal of Mechanical Engineering Science, 2021.
  12.  X. Feng, P.H. Taylor, R. Willden, S. H. Day, S. Dai, T.A.A. Adcock*. 2020, Experimental investigation of higher harmonic wave loads and moments on a vertical cylinder by a phase-manipulation method. Coastal Engineering. Vol. 160, 103747
  13. X. Feng*, 2019, Analysis of higher harmonics in a focused water wave group by a nonlinear potential flow model. Ocean Engineering. Vol.193, 106581. https://doi.org/10.1016/j.oceaneng.2019.106581
  14. 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.
  15. 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.
  16. 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.
  17. 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.
  18. 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.
  19. 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.
  20.  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.

 

新闻动态 更多新闻

  • 学术会议通知2023 International Workshop on Water Waves and Floating Bodies (IWWWFB38)

    2023-05-25
  • 第十一届全国流体力学学术会议征文通知

    2020-06-19
  • 第三十一届全国水动力学研讨会征文通知

    2020-06-19

加入团队

本课题组每年定期招收博士生,欢迎优秀青年学子加入团队攻读博士学位。南科大提供最国际化的教学科研环境,最舒适的校园生活条件。学校为博士生提供众多奖学金和境外联培机会。课题组提供境外高水平大学交流的机会。
同时,本课题组招收优秀的博士后,待遇从优。

职位描述


海洋工程水动力学和波浪模拟
波浪载荷,海洋平台运动
流固耦合
海工水池试验
数值模拟--势流模型和CFD


博士后


33周岁以下,在国(境)内外获得博士学位(取得博士学位3年内),或者已经提交博士论文等待答辩; 
具有海洋工程、船舶流体力学、应用数学等相关专业博士学位,有水动力学和势流波浪理论相关经历者优先; 
有WAMIT,SEASAM等软件经历者优先;
掌握BEM边界元方法者优先;
以第一作者(或主要贡献者)在相关领域主流期刊上发表过SCI论文; 
具备独立从事科研工作的强烈意愿和能力,团队合作精神
拥有良好的学术沟通能力和英文交流写作水平
具有较好的编程能力,熟练掌握一门编程语言(C++, FORTRAN, Matlab,Python等)

薪酬待遇:

在站期间是我校正式工作人员,可以申请深圳户口,享受医疗保险、安排子女入学(入托)等;
年薪31-35万元(含市财政发放的免税博后补助18万元/年,完成开题考核和中期考核后即可申领);特别优秀者可申请校长卓越博士后,年薪可达50万元;
在站期间学校为每位博士后提供至少2.5万元的学术交流资助(含国际),另课题组也会提供会议资助;
课题组提供良好的科研条件,鼓励并协助博士后研究人员申报国家自然科学基金、中国博士后科学基金、广东省博士后科研资助项目(博士毕业学校四大排名前200的可享受补助60万/两年)等,并大力推荐出站考核优异者申请学校相应的科研教师岗位;
享受过节费、餐补、计划生育奖励、免费体检等福利待遇

 
欢迎优秀青年学者发送CV至fengxy@sustech.edu.cn,并注明申请岗位。
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