First Evaluation of the IEA Wind Task 52 LAC Summer Games 2024
Schlipf, D. . (2025). First Evaluation of the IEA Wind Task 52 LAC Summer Games 2024. Zenodo. http://doi.org/10.5281/zenodo.14778978 (Original work published 2025)
Publikationen
2025
2024
Study on the impact of wind models and data processing on lidar-assisted control performance
Fu, W. ., Schlipf, D. ., Raach, S. ., White, S. ., Pitter, M. ., & Slinger, C. . (2024). Study on the impact of wind models and data processing on lidar-assisted control performance. http://doi.org/10.5281/zenodo.12666568 (Original work published 2025)Exportformate
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Contribution of wind energy education to resilience in the face of the climate crisis
Schlipf, D. ., Soto, G. Q., Rodriguez, H. Z., & Brovia, S. P. (2024). Contribution of wind energy education to resilience in the face of the climate crisis. http://doi.org/10.5281/zenodo.13270425 (Original work published 2025)Exportformate
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IEA Wind Task 52 LAC Summer Games 2024
Schlipf, D. ., Guo, F. ., Liang, Z. ., Pitter, M. ., Lopez-Queija, J. ., Rinker, J. ., … Weich, S. . (2024). IEA Wind Task 52 LAC Summer Games 2024. http://doi.org/10.5281/zenodo.13235189 (Original work published 2025)Exportformate
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TorqTwin—An open-source reference multibody modeling framework for wind turbine structural dynamics
Guo, F. ., Gao, Z. ., & Schlipf, D. . (2024). TorqTwin—An open-source reference multibody modeling framework for wind turbine structural dynamics. Renewable Energy, 235, 121268. http://doi.org/10.1016/j.renene.2024.121268Exportformate
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Green hydrogen production with offshore wind at Colombian Caribbean Sea: Analysis for Atlántico Department s coast
Bermejo, E. ., Berrío, J. ., Llain, J. ., Rincón, A. ., Schlipf, D. ., & Zambrano, H. . (2024). Green hydrogen production with offshore wind at Colombian Caribbean Sea: Analysis for Atlántico Department s coast. http://doi.org/10.5281/zenodo.10912206Exportformate
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Impact of motions on floating wind turbine power production
Garcia-Sagrado, A. ., Schlipf, D. ., Brovia, S. P., Burstein, J. ., & Yoshinaga, T. . (2024). Impact of motions on floating wind turbine power production. In Journal of Physics: Conference Series. http://doi.org/10.1088/1742-6596/2767/6/062034Exportformate
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2023
Improving the Quality of Wind Field Reconstruction Techniques for Lidar-assisted Control of Wind Turbines
Afanasieva, N. ., & Schlipf, D. . (2023). Improving the Quality of Wind Field Reconstruction Techniques for Lidar-assisted Control of Wind Turbines. In 19thEAWE PhD Seminar on Wind Energy. http://doi.org/10.5281/zenodo.8335186 (Original work published 2025)Exportformate
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The performance of two control strategies for floating wind turbines: lidar-assisted feedforward and multi-variable feedback
Guo, F. ., Schlipf, D. ., Lemmer, F. ., Raach, S. ., Özinan, U. ., Adam, R. ., & Choisnet, T. . (2023). The performance of two control strategies for floating wind turbines: lidar-assisted feedforward and multi-variable feedback. In Journal of Physics: Conference Series (Bd. 2626, S. 012005). http://doi.org/10.1088/1742-6596/2626/1/012005 (Original work published 2025)Exportformate
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Feedforward control for a 15-MW wind turbine using a spinner-mounted single-beam lidar
Fu, W. ., Guo, F. ., Schlipf, D. ., & Peña, A. . (2023). Feedforward control for a 15-MW wind turbine using a spinner-mounted single-beam lidar. http://doi.org/10.5281/zenodo.8033374 (Original work published 2025)Exportformate
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