摘要
[目的]为突破漂浮式海上风电工程一体化设计研究风电机组关键参数交互壁垒,[方法]基于有限风轮组件基本参数提出一种漂浮式海上风电系统一体化工程校验方法,研究选取无波浪、无海流的极大风速极端工况和风浪流联合作用下的极端工况,开展一体化分析工程校验。[结果]结果表明,使用该方法校验的塔筒底部载荷与机组方原始提供的塔底载荷一致性高,且数据集离散度吻合均较好。[结论]研究成果可用于后续漂浮式海上风电基础设计一体化工程校验。
[Purpose]Targeting some parameter interaction barriers in the design and research of floating offshore wind power projects,[Method]an integrated engineering verification method for floating offshore wind power systems is proposed based on the basic parameters of limited wind turbine components.Extreme wind speed conditions without waves or currents and extreme conditions under the combined action of wind,waves and currents are selected for integrated analysis and engineering verification.[Result]The results show that the tower bottom load verified by this method is highly consistent with the original tower bottom load provided by the wind turbine manufacturer,and the data set dispersion is in good agreement,[Conclusion]which can be used for the integrated engineering verification of floating offshore wind power foundation design in subsequent projects.
作者
范可
杨欣
王琳一
陈鹏飞
FAN Ke;YANG Xin;WANG Linyi;CHEN Pengfei(Shanghai Investigation,Design and Research Institute Co.,Ltd.,Shanghai 200335,China)
出处
《船舶工程》
北大核心
2025年第S1期119-123,共5页
Ship Engineering
基金
上海市科技学技术委员会科技计划项目(22DZ1206003)。
关键词
漂浮式海上风电
一体化分析
校验方法
floating offshore wind power
integrated analysis
verification method
