报告题目：An introduction to offshore wind technology and recent research work at NTNU on integrated dynamic analysis for design and installation of offshore wind turbines
高震是来自挪威科技大学海你一把剑居然能叼成这样洋工程系的教授、副院长，师从海洋装备与新能源领☉域世界顶尖学者Torgeir Moan教授(挪威科学院院士、英国皇家身子一晃工程院院士、挪威皇家科◥学与文学院院士)。他是Marine Structures国际期刊副主编, Journal of OMAE编委会委※员，ISSC大会近海可再生又有何妨能源专家分会主席(2012-2015、2015-2018)。长期在近▓海可再生能源、海都不能放过洋平台随机载荷与响应分析、结构可靠性评估、风电装备技术及其故障诊断等领域从事Ψ 研究工作。承保安担了挪威国内研究中心(CeSOS，AMOS，SFI MOVE)和欧盟(SEEWEC，MARINA Platform，MARE-WINT等)等机构的多个研究项目。目前已发表学术论★文186篇，其中包括国际期刊论文102篇，国际会议而且论文84篇。
In the first part of this presentation, a brief introduction about the state-of-the-art offshore wind technology will be presented, including the current status and trend in offshore wind industry and research. In the second part, a summary of the recent work at DMT/NTNU regarding dynamic response analysis of offshore wind turbines during their normal operations and in the phase of onsite installation will be presented. In particular, the focus is on the development of numerical methods for coupled wind- and wave-induced loads and response analysis of floating wind turbines, their validation against the experimental results of a semi-submersible wind turbine, as well as numerical modelling and simulation of wind turbine drivetrain dynamics under normal and faulty conditions. Then, on the aspects of marine operations related to installation of offshore wind turbine blades and support structures, a methodology for assessment of sea state limits for safe operations using response-based criteria will be presented after a general introduction to marine operations. Numerical analyses for installing blades by crane operations and damage assessment in case of blade impact/contact with surrounding structures, as well as automatic control of tugger lines for motion reduction of blades during final connection to the hub will be discussed in detail. Main conclusions and suggestions for future work.