English

Grid-scale Fluctuations and Forecast Error in Wind Power

Data Analysis, Statistics and Probability 2016-02-17 v1 Chaotic Dynamics Atmospheric and Oceanic Physics Fluid Dynamics

Abstract

The fluctuations in wind power entering an electrical grid (Irish grid) were analyzed and found to exhibit correlated fluctuations with a self-similar structure, a signature of large-scale correlations in atmospheric turbulence. The statistical structure of temporal correlations for fluctuations in generated and forecast time series was used to quantify two types of forecast error: a timescale error (eτe_{\tau}) that quantifies the deviations between the high frequency components of the forecast and the generated time series, and a scaling error (eζe_{\zeta}) that quantifies the degree to which the models fail to predict temporal correlations in the fluctuations of the generated power. With no aa prioripriori knowledge of the forecast models, we suggest a simple memory kernel that reduces both the timescale error (eτe_{\tau}) and the scaling error (eζe_{\zeta}).

Keywords

Cite

@article{arxiv.1503.09070,
  title  = {Grid-scale Fluctuations and Forecast Error in Wind Power},
  author = {G. Bel and C. P. Connaughton and M. Toots and M. M. Bandi},
  journal= {arXiv preprint arXiv:1503.09070},
  year   = {2016}
}
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