Non-Gaussian power grid frequency fluctuations characterized by Lévy-stable laws and superstatistics

Schäfer, Benjamin; Beck, Christian; Aihara, Kazuyuki; Witthaut, Dirk; Timme, Marc

doi:10.1038/s41560-017-0058-z

Cited by 204 publications

(253 citation statements)

References 41 publications

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“…Incorporating climate variability into transmission system design (e.g., Kempton et al, 2010) and wind park siting (e.g., Grams et al, 2017) facilitates integration of wind energy. Relevant temporal scales range from subseconds (e.g., Schäfer et al, 2018), over diurnal, synoptic and interannual (e.g., Zubiate et al, 2017), up to multidecadal and centennial timescales (Bett et al, 2017). The last two have received relatively little attention and are therefore the focus of this study.…”

Section: Introductionmentioning

confidence: 99%

Inconsistent Wind Speed Trends in Current Twentieth Century Reanalyses

et al. 2019

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Reanalysis data underpin much research in atmospheric and related sciences. While most reanalysis only cover the last couple of decades, National Oceanic and Atmospheric Administration (20CR) and European Centre for Medium‐Range Weather Forecasts (ERA20C and CERA20C) also developed reanalyses for the entire twentieth century that theoretically allow investigation of multidecadal variability. However, the approaches adopted to handle the massively evolving number of observations can cause spurious signals. Here we focus on wind speeds, as its assimilation is a key difference among these two products. We show that ERA20C and CERA20C feature significant trends in the North Atlantic and North Pacific wind speeds of up to 3 m/s per century. We show that there is a good relation between the trends in the reanalysis and assimilated wind speeds. In contrast, 20CR and the European Centre for Medium‐Range Weather Forecasts free model run ERA20CM do not show positive trends in the same regions. As a consequence, conclusions drawn from any single twentieth century reanalysis should be treated cautiously in particular in sectors with a strong wind dependency (e.g., wind energy).

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Section: Introductionmentioning

confidence: 99%

Inconsistent Wind Speed Trends in Current Twentieth Century Reanalyses

et al. 2019

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“…We want to point out that the non-Gaussian increment statistics p(Δ τ f ) may also be fitted with other heavy-tailed distributions, such as q-Gaussians or α-stable distributions, which have successfully been applied to single-point PDFs of grid frequency data [22] as well as to other complex systems like stock markets [35] or biological systems [36]. An important property of such distributions is, besides the stability, the fact that they have diverging moments for wide parameter ranges.…”

Section: In Practice Z(t) Is Obtained From the Hilbert Transform H[umentioning

confidence: 99%

“…The impact of intermittent feed-in on power grids has been addressed in [20,21]: Numerical results indicate that intermittency propagates in a power grid and affects the frequency increment distributions of nodes distant to the feed-in. Stochastic models for non-Gaussian frequency fluctuations are presented in [22]. However, none of the prior results relates the intermittent feed-in to transient stochastic properties of the grid frequency.…”

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confidence: 99%

The footprint of atmospheric turbulence in power grid frequency measurements

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Waechter

et al. 2018

EPL

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-Fluctuating wind energy makes a stable grid operation challenging. Due to the direct contact with atmospheric turbulence, intermittent short-term variations in the wind speed are converted to power fluctuations that cause transient imbalances in the grid. We investigate the impact of wind energy feed-in on short-term fluctuations in the frequency of the public power grid, which we have measured in our local distribution grid. By conditioning on wind power production data, provided by the ENTSO-E transparency platform, we demonstrate that wind energy feedin has a measurable effect on frequency increment statistics for short time scales (< 1 s) that are below the activation time of frequency control. Our results are in accordance with previous numerical studies of self-organized synchronization in power grids under intermittent perturbation and give rise to new challenges for a stable operation of future power grids fed by a high share of renewable generation. editor's choice

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“…In order to apply Eqs. (10) and (11), we calculate the piecewise averaged wind generation time series from the mismatch energies as follows: The average over the ensemble of 100 simulations almost perfectly coincides with the average backup energy E of the original time series for S max < 50 h (see Fig. 11).…”

Section: Backup and Storage Needmentioning

confidence: 99%

“…Power plants based on fossil fuels must be replaced by renewable sources such as wind and solar power. These technologies have shown remarkable progress in recent decades, but the integration into the energy system represents a huge challenge due to their strong intermittency [4][5][6][7][8][9][10]. Generation and load have to be balanced at every instance of time.…”

Section: Introductionmentioning

confidence: 99%

Modeling long correlation times using additive binary Markov chains: Applications to wind generation time series

2018

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Wind power generation exhibits a strong temporal variability, which is crucial for system integration in highly renewable power systems. Different methods exist to simulate wind power generation but they often cannot represent the crucial temporal fluctuations properly. We apply the concept of additive binary Markov chains to model a wind generation time series consisting of two states: periods of high and low wind generation. The only input parameter for this model is the empirical autocorrelation function. The two-state model is readily extended to stochastically reproduce the actual generation per period. To evaluate the additive binary Markov chain method, we introduce a coarse model of the electric power system to derive backup and storage needs. We find that the temporal correlations of wind power generation, the backup need as a function of the storage capacity, and the resting time distribution of high and low wind events for different shares of wind generation can be reconstructed.

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Non-Gaussian power grid frequency fluctuations characterized by Lévy-stable laws and superstatistics

Cited by 204 publications

References 41 publications

Inconsistent Wind Speed Trends in Current Twentieth Century Reanalyses

Inconsistent Wind Speed Trends in Current Twentieth Century Reanalyses

The footprint of atmospheric turbulence in power grid frequency measurements

Modeling long correlation times using additive binary Markov chains: Applications to wind generation time series

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