Synthetic turbulence modelling for offshore wind farm engineering models using coherence aggregation

Abstract: Turbulent wind fields are known to be a major driver for structural loads on offshore wind turbines, and hence benefit from well-established design standards using wind spectra and  coherence functions calibrated from years of measurements. Multiple 10-minutes wind field realisations obtained by Gaussian process generation are then used in aero-hydro-servo elastic codes to get structural loads. When it comes to large offshore wind farms, however, measurements reveal the importance of large, low-frequency turbu… Show more

“…A wind speed of 10 m/s with direction perpendicular to the layout (no wake) and with standard turbulence level is chosen. The incoming wind is then obtained from a farm-scale synthetic turbulence generator providing the rotor-averaged (power-equivalent) wind speed with consistent lowfrequency fluctuations and correlation between turbines (Chabaud, 2023), for a consistent representation of wind power variability.…”

Model predictive control of compact combined cycles in offshore power plants integrating a wind farm

“…A wind speed of 10 m/s with direction perpendicular to the layout (no wake) and with standard turbulence level is chosen. The incoming wind is then obtained from a farm-scale synthetic turbulence generator providing the rotor-averaged (power-equivalent) wind speed with consistent lowfrequency fluctuations and correlation between turbines (Chabaud, 2023), for a consistent representation of wind power variability.…”

Model predictive control of compact combined cycles in offshore power plants integrating a wind farm