Distributions and correlation properties of offshore wind speeds and wind speed increments

arXiv - PHYS - Atmospheric and Oceanic Physics Pub Date : 2024-07-17 DOI:arxiv-2407.12934

So-Kumneth Sim, Philipp Maass, H. Eduardo Roman

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Abstract

We determine distributions and correlation properties of offshore wind speeds and wind speed increments by analyzing wind data sampled with a resolution of one second for 20 months at different heights over the sea level in the North Sea. Distributions of horizontal wind speeds can be fitted to Weibull distributions with shape and scale parameters varying weakly with the vertical height separation. Kullback-Leibler divergences between distributions at different heights change with the squared logarithm of the height ratio. Cross-correlations between time derivates of wind speeds are long-term anticorrelated and their correlations functions satisfy sum rules. Distributions of horizontal wind speed increments change from a tent-like shape to a Gaussian with rising increment lag. A surprising peak occurs in the left tail of the increment distributions for lags in a range $10-200\,{\rm km}$ after applying the Taylor's hypothesis locally to transform time lags into distances. The peak is decisive in order to obtain an expected and observed linear scaling of third-order structure functions with distance. This suggests that it is an intrinsic feature of atmospheric turbulence.

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近海风速和风速增量的分布和相关特性

我们通过分析北海不同海平面高度上 20 个月分辨率为一秒的风采样数据，确定了近海风速和风速增量的分布和相关特性。水平风速的分布可拟合为魏布分布，其形状和尺度参数随垂直高度分离而微弱变化。不同高度分布之间的 Kullback-Leibler 发散随高度比的平方对数变化。风速时间导数之间的交叉相关是长期相关的，其相关函数满足和规则。在局部应用泰勒假设将时滞转换为距离之后，在滞后范围为 10-200,{\rm km}$的增量分布的左尾出现了一个令人惊讶的峰值。这个峰值对获得三阶结构函数随距离的预期和观测线性缩放具有决定性作用。这表明它是大气湍流的一个固有特征。

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arXiv - PHYS - Atmospheric and Oceanic Physics

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