个人简介:

新葡的京集团8814副教授、硕士生导师。主要从事包括海上风机、深水系泊关键技术、多浮体运动相互作用动力特性、浮体操纵性及运动特性、合成纤维系缆复杂力学特性、柔性结构大变形问题、海底管线力学特性、机器学习算法在海洋结构物的应用等方面的研究。曾参与包括国家自然科学基金、国家高技术研究发展计划(863计划)、澳大利亚研究理事会(ARC)、新加坡海事研究机构(SMI)、及新加坡海事局(MPA)等资助的研究项目以及工业界咨询项目多项。曾去剑桥大学,牛津大学,克兰菲尔德大学,斯特拉斯克莱德大学,西澳大学,墨尔本大学及香港理工大学等进行访问交流。在国际权威学术期刊包括《Ocean Engineering》、《Applied Ocean Research》、《Ships and Offshore Structures》、《Advanced Steel Construction》、《China Ocean Engineering》和国际学术会议ISOPE、ISOPE PACOMS以及MOSS等发表学术论文30余篇。目前担任学术期刊《Ocean Engineering》《Applied Ocean Research》等审稿人。                                       

研究方向:

海上风机、浮式结构物动力特性、系泊基础、柔性结构、合成纤维系缆、海底管线

教学:

结构力学、结构动力学、海洋工程结构、海洋工程环境

学术论著:

  1. Li BB, Huang W*, Chen XB. Tendon fatigue analysis of tension leg platform using a new time-domain quasi-dynamic method. Marine Structures 2025; 39: 103701.
  2. Huang W*, Tang RJ, Ma HH. The review of Vortex lattice method for offshore wind turbines. Renewable Energy 2024; 121450.
  3. Lin Tong, Huang W*, Liu SW, Bai R. An investigation on the effect of random pitting corrosion on the strength of the subsea pipeline using monte carlo method. Advanced Steel Construction 2024; 20(1): 93-104.
  4. Wang HW, Gu SW, Ma G, Huang W, Sun YH, Du ZX. Dynamic performance analysis of grid mooring system for gravity cages. Ships and Offshore Structures 2024; 1-18.
  5. Ma HH, Zhang SY, Li BE, Huang W. Local scour around the monopile based on the CFD-DEM method: Experimental and numerical study. Computers and Geotechnics 2024; 168: 106117. 
  6. Zheng ZY, Hu Z, Xie XG, Huang W. Local scour around the monopile: A microscopic perspective using CFD-DEM. Ocean Engineering 2024; 299:117318.
  7. Huang W, Li BB, Kim DK. An investigation on material diversity of synthetic fiber ropes in the course stability of towing under wind. Ocean Engineering 2023, 279(2023): 114410.
  8. Ning JH, Lin Tong, Liu SW, Bai R, Huang W*. Three-dimensional pipeline element formulation for lateral buckling analysis of submarine pipelines with sleeper. Marine Structures 2023, 90(2023): 103428.
  9. Huang W, Li BB, Chen XB. A new quasi-dynamic method for the prediction of tendon tension of TLP platform. Ocean Engineering 2023; 270: 113590.
  10. Wang CY, Liu J, Li BB, Huang W. The absolute nodal coordinate formulation in the analysis of offshore floating operations, Part II: Code validation and case study. Ocean Engineering 2023; 281:114650.
  11. Ning JH, Bai R*, Liu SW, Huang W. Integrated soil-pile elements for inelastic design of steel piles considering lateral soil-pile interactions. International Journal of Geomechanics 2023, 23(5):04023048.
  12. Ning JH, Liu SW, Lin Tong, Huang W*. Pipeline element for upheaval buckling analysis of submarine pipelines with geometric-imperfections under high temperature high pressure. Ocean Engineering 2022; 264: 112456.
  13. Ning JH, Liu SW, Wan JH, Huang W*. Line-element formulation for upheaval buckling analysis of buried subsea pipelines due to thermal expansion. Advanced Steel Construction 2021; 17(2): 210-220.
  14. Li BB, Huang W*, Liang H. An efficient method to assess effect of fins on the course stability of towing system. Ocean Engineering 2020; 217:108005.
  15. Huang W, Li BB*, Chen XB, Araujo R. Numerical and experimental studies on dynamic gangway response between monohull flotel and FPSO in non-parallel side-by-side configuration. Ocean Engineering 149(2018): 341-357. (被法国船级社2022年最新权威规范NI691《ENVIRONMENTAL CONDITIONS, LOADS AND INDUCED RESPONSES OF MARINE UNITS》收录
  16. Li BB, Huang W*, Chen XB. A numerical study of dynamic response of crane semi-submersible along TLP in tender-assisted drilling operation. Ships and Offshore Structures, (2018):1-14. 
  17. Huang W, Liu HX*, Lian YS, Li LA. Modeling nonlinear time-dependent behaviors of synthetic fiber ropes under cyclic loading. Ocean Engineering 2015;109:207-216. (2018年第20届国际船舶与海洋结构大会(ISSC《COMMITTEE I.2 LOADS》收录
  18. Liu HX*, Huang W, Lian YS, Li LA. An experimental investigation on nonlinear behaviors of synthetic fiber ropes for deepwater moorings under cyclic loading. Applied Ocean research 2014;45:22-32. 
  19. Huang W, Liu HX*, Lian YS, Li LA. Modeling nonlinear creep and recovery behaviors of synthetic fiber ropes for deepwater moorings. Applied Ocean Research 2013;39:113-120. 
  20. Huang W, Liu HX*, Shan GM, Hu C. Fatigue analysis of the taut-wire mooring system applied in deep water. China Ocean Engineering 2011;25(3):413-426. 
  21. Lian YS, Liu HX*, Huang W, Li LA. A creep-rupture model of synthetic fiber ropes for deepwater moorings based on thermodynamics. Applied Ocean Research 2015;52:234-244. 
  22. Hu C, Liu HX*, Huang W. Anisotropic bounding-surface plasticity model for cyclic shakedown and degradation of saturated clay. Computers and Geotechnics 2012;44:34-47. 
  23. Huang W, Li BB, Liang H, Chen XB. Dynamic course stability of towing systems using fiber ropes. Proceedings of Marine operations specialty symposium (MOSS), Singapore, Sep. 20-21, 2016.
  24. Huang W, Li BB, Chen XB. An investigation of dynamic stiffness changing with loading cycles in taut mooring analysis. Proceedings of the 25th International Ocean and Polar Engineering Conference, Kona, Hawaii, USA, June 21-26, 2015.
  25. Huang W, Liu HX, Hu C. Modeling the stress-strain properties of synthetic fiber mooring lines under cyclic loading. Proceedings of the 24th International Ocean and Polar Engineering Conference, Busan, Korea, June 15-20, 2014.
  26. Li BB, Huang W, Malenica S, De-Hauteclocque G, Chen XB. Global performance and tendon tension analysis of Tension Leg Plaftform: quasi-dynamic approach vs fully coupled approach. Proceedings of the 12th ISOPE Pacific/Asia Offshore Mechanics Symposium, Gold Coast, Australia, Oct 4-7, 2016.
  27. Li BB, Huang W, Araujo R, Boulland J, Chen XB. Gangway motion evaluation of an accommodation vessel operating along a turret moored FPSO. Proceedings of the 25th International Ocean and Polar Engineering Conference, Kona, Hawaii, USA, June 21-26, 2015.
  28. 牛海峰,李向辉,梁峰,胡存,李亚,黄维. 随机循环载荷作用下吸力筒基础的承载特性分析. 港口航道与近海工程,2023, 5(46): 31-36.
  29. 黄维,刘海笑. 新型深水系缆非线性动力特性研究进展. 海洋工程,2009,27(4):140~144.
  30. 黄维,刘海笑. 新型深水系泊系统非线性循环动力分析. 海洋工程,2010,28(2):22~36.
  31. 林诚鑫,黄维,刘海笑. 适用于合成纤维系缆循环动力特性的应力应变关系模型. 海洋工程,2012,30(3):87~96.
  32. 连宇顺,刘海笑,黄维. 超深水混合绷紧式系泊系统非线性循环动力分析. 海洋工程,2013,3:1~8.
  33. 胡存,刘海笑,黄维. 考虑循环载荷下饱和粘土软化的损伤边界面模型. 岩土力学,2012,33(2):1~10

受邀报告:

2024年在大连理工大学海岸和近海工程国家重点实验室学术讲堂做邀请报告。

2023年参加香港理工大学组办的IGES2023,并做学术报告。

2023年应墨尔本大学Tian教授邀请做学术报告。

2018年应新加坡国立大学(NUS)Low教授邀请在新加坡国立大学工程学院CORE Seminar做学术报告。

2014年在马来西亚国油大学(UTP)给研究生讲授系泊分析理论与应用计算课程。

学术兼职:

《Ocean Engineering》《Applied Ocean Research》OMAE《POF》等审稿人、新葡的京集团8814海洋科学考察中心专业副主任                                   

寄语学生:

欢迎对浮体系泊基础、多浮体相互作用问题、合成纤维系缆、海底管线等感兴趣的同学报考我的研究生,请联系huangw288@mail.sysu.edu.cn或huangwei625@126.com。