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首页> 外文会议>International Conference on Sustainable Energy, Environment and Information Engineering >Analysis of Motion Response of Wind Turbine Platform Considering Different Heading Angles and Water Depths
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Analysis of Motion Response of Wind Turbine Platform Considering Different Heading Angles and Water Depths

机译:考虑不同标题和水深风力涡轮机平台运动响应的分析

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Due to the occurrence of the overturning of the offshore wind turbine platform, this paper has conducted in-depth research on the offshore structure response of the wind turbine. Using the SESAM software, the wind turbine model was constructed to compare the motion response and structural response of the nose to the multi-floating wind power platform at different heading angles. Secondly, the magnitude of the motion response value of the floating platform of the fan under different water depths and the stress at the joint of the pontoon rod and the change of the RAO value are compared. The results show that the motion response and heading change of the fan platform are not obvious, and the water depth has a certain influence on it, and it is more obvious in shallow water. Therefore, in the future design of multi-floating wind power generation platform, the impact of wind turbine head steering changes on the structure can be neglected, but the effect of water depth on motion response and dynamic response should be integrated and considered to ensure that the platform can be safer.
机译:由于近海风力涡轮机平台的推翻,本文对风力涡轮机的海上结构响应进行了深入研究。使用SESAM软件,构造风力涡轮机模型以将鼻子的运动响应和结构响应与不同的标题角度的多浮动风电平台进行比较。其次,比较了风扇在不同水深的浮动平台的运动响应值的幅度和浮筒杆的关节处的应力和RAO值的变化。结果表明,风扇平台的运动响应和前置变化不明显,水深对其产生一定影响,在浅水中更为明显。因此,在未来的多浮风发电平台设计中,风力涡轮机头部转向变化对结构的影响可以忽略,但水深对运动响应和动态响应的影响应集成并考虑确保平台可以更安全。

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