Articles | Volume 4, issue 4
https://doi.org/10.5194/wes-4-581-2019
https://doi.org/10.5194/wes-4-581-2019
Research article
 | 
07 Nov 2019
Research article |  | 07 Nov 2019

Wind turbine load dynamics in the context of turbulence intermittency

Carl Michael Schwarz, Sebastian Ehrich, and Joachim Peinke

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Cited articles

Berg, J., Natarajan, A., Mann, J., and Patton, G.: Gaussian vs non-Gaussian turbulence: impact on wind turbine loads, Wind Energy, 19, 1975–1989, https://doi.org/10.1002/we.1963, 2016. a, b, c, d
Böttcher, F., Renner, C., Waldl, H., and Peinke, J.: Problematik der Windböen, DEWI Magazin, 19, 58–62, 2001. a
Böttcher, F., Renner, C., Waldl, H., and Peinke, J.: On the statistics of wind gusts, Bound.-Lay. Metereol., 108, 163–173, 2003. a, b, c, d
Gontier, H., Schaffarczyk, A. P., Kleinhans, D., and Friedrich, R.: A comparison of fatigue loads of wind turbine resulting from a non-Gaussian turbulence model vs. standard ones, J. Phys.: Conf. Ser., 75, 012070, https://doi.org/10.1088/1742-6596/75/1/012070, 2007. a, b, c
Hähne, H., Schottler, J., Waechter, M., Peinke, J., and Kamps, O.: The footprint of atmospheric turbulence in power grid frequency measurements, Europhys. Lett., 121, 30001, https://doi.org/10.1209/0295-5075/121/30001, 2018. a, b
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Short summary
This work is dedicated to the non-Gaussian statistics of wind velocity jumps and their effect on wind turbines, more specifically on fatigue loads. Wind velocity jumps are commonly simplified to behave in a Gaussian manner. This study discusses how to compare non-Gaussian to Gaussian wind fields properly and shows that the non-Gaussianity in fact can make a difference with respect to fatigue loads. Additionally, we highlight the dependence of our findings on the wind field's coherence.
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