海上风电登靠步桥发展与关键技术研究综述  

Overview of offshore wind power gangway development and key technologies

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作  者:张彦方 ZHANG Yanfang(Shipbuilding Engineering Branch,China Railway Construction Bridge Engineering Bureau Group Corporation,Tianjin 300308,China)

机构地区:[1]中国铁建大桥工程局集团有限公司船舶工程分公司,天津300308

出  处:《中国舰船研究》2024年第4期48-58,共11页Chinese Journal of Ship Research

摘  要:海上风电登靠步桥的应用可确保海上风电风力涡轮机的正常运行,能够为优化登靠操作、提高风电项目运维效率以及降低成本提供支持。从登靠步桥的发展历程以及技术进展的角度进行概述,分析国内外在该领域的主要装备及其性能,同时围绕运动感知与数据分析、补偿控制与执行、结构设计与可靠性以及新材料应用等方面对海上风电登靠步桥关键技术进行讨论。指出并联平台是主流的海上风电登靠步桥执行机构,波浪补偿是设备性能的核心以及竞争力来源,先进的波浪补偿技术有赖于传感器技术、人工智能等多学科的发展。分析结果可为海上风电登靠步桥领域的后续技术探索提供参考。The application of offshore wind power gangways ensures the normal operation of offshore wind turbines and provides reliable support for optimizing the boarding process,improving the operation and maintenance efficiency,and reducing the cost of wind power projects.This paper provides an overview of the development history and technological progress of gangways,and analyzes the main equipment in this field and its performance at home and abroad,as well as discussing the key technologies of offshore wind turbine gangways in such aspects as motion sensing and data analysis,compensation control and execution,structural design and reliability,and composite material application.It is pointed out that the parallel platform is the mainstream offshore gangway actuator;wave compensation is the core of equipment performance and the source of competitiveness;and advanced wave compensation technology depends on the development of sensor technology,artificial intelligence technology and other multidisciplinary development.This paper makes a comprehensive analysis for researchers and practitioners in the field of offshore wind power gangways,providing valuable references for subsequent technology exploration.

关 键 词:海上风电 海上登靠步桥 STEWART平台 波浪补偿 运动预报 

分 类 号:U664.4[交通运输工程—船舶及航道工程]

 

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