具有方向变化的极端相干阵风——概率模型、偏航控制和风力涡轮机负载

IF 3.6 Q3 GREEN & SUSTAINABLE SCIENCE & TECHNOLOGY Wind Energy Science Pub Date : 2023-02-21 DOI:10.5194/wes-8-231-2023
Ásta Hannesdóttir, D. Verelst, A. M. Urbán
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引用次数: 1

摘要

摘要大相干波动的观测被用来定义具有方向变化的相干阵风的概率模型。阵风模式提供了50年回归期阵风上升时间、振幅和方向变化的联合描述。观测到的事件来自丹麦西部沿海地区十年来的测量,这使得推导出的阵风模型地点具有特异性。结合阵风模型,在本研究中提出了一个偏航控制器来研究联合阵风变量的负载含义。将这些载荷与IEC 61400-1 Ed.4风力机安全标准中具有方向变化的极端相干阵风(ECD)的设计载荷情况进行了比较。在我们的特定地点阵风模型框架内,我们发现ECD的回归周期约为460年。从模拟中我们发现,例如,对于上升时间相对较长的阵风,可以通过加入所考虑的偏航控制器来减小叶根的扑翼弯矩。从ECD和模拟阵风的极端负荷比较中,我们看到,通过包括阵风参数的可变性,模拟阵风的负荷值比IEC阵风高20%至74%。
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Extreme coherent gusts with direction change – probabilistic model, yaw control, and wind turbine loads
Abstract. Observations of large coherent fluctuations are used to define a probabilistic model of coherent gusts with direction change. The gust model provides the joint description of the gust rise time, amplitude, and directional changes with a 50-year return period. The observed events are from a decade of measurements from a coastal site in western Denmark, making the derived gust model site specific. In conjunction with the gust model, a yaw controller is presented in this study to investigate the load implications of the joint gust variables. These loads are compared with the design load case of the extreme coherent gust with direction change (ECD) from the IEC 61400-1 Ed.4 wind turbine safety standard. Within the framework of our site-specific gust model we find the return period of the ECD to be approximately 460 years. From the simulations we find that for gusts with a relatively long rise time the blade root flapwise bending moment, for example, can be reduced by including the considered yaw controller. From the extreme load comparison of the ECD and the modeled gusts we see that by including the variability in the gust parameters the load values from the modeled gusts are between 20 % and 74 % higher than the IEC gusts.
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来源期刊
Wind Energy Science
Wind Energy Science GREEN & SUSTAINABLE SCIENCE & TECHNOLOGY-
CiteScore
6.90
自引率
27.50%
发文量
115
审稿时长
28 weeks
期刊最新文献
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