IndiAnaWind
Interdisciplinary analysis and optimization of wind turbines and their components
Goals
- Aerodynamic and aeroacoustic flow simulation of high-resolution wind turbines under real conditions
- Multidisciplinary numerical imaging
Publications
- Bangga G., Seel F., Lutz T. and Kühn T., Aerodynamic and Acoustic Simulations of Thick Flatback Airfoils Employing High Order DES Methods. Adv. Theory Simul., 5, 2200129. 2022
- Wenz F., Langner J., Lutz T., and Krämer E.: Impact of the wind field at the complex-terrain site Perdigão on the surface pressure fluctuations of a wind turbine, Wind Energ. Sci., 7, 1321–1340, 2022
- Wenz F., Lutz T. and Krämer E.: Impact of turbulent inflow and orography on the low-frequency noise sources of a wind turbine. Journal of Physics: Conference Series. 2265. 032060. 2022
- Seel F., Blazejewski L., Lutz T., and Krämer, E.: Numerical Assessment of a BAY-Type Model for different Vortex Generator Shapes Applied on a Wind Turbine Airfoil, J. Phys.: Conf. Ser. 2265 032001. 2022
- Wenz F., Maas O., Arnold M., Lutz T., and Krämer E.: Assessment of low- frequency aeroacoustic emissions of a wind turbine under rapidly changing wind conditions based on an aero-servo-elastic CFD simulation. Wind Energy, 2023.
- Seel F., Lutz T., and Krämer E.: Numerical Study of the Unsteady Blade Root Aerodynamics of a 2MW Wind Turbine Equipped With Vortex Generators, Wind Energ. Sci. Discuss. 2023. (In Begutachtung)
- Seel F., Blazejewski L., Lutz T. and Krämer E.: Numerical Study on the Reduction of Blunt Trailing Edge Noise by the Use of Vortex Generators. Wind Turbine Noise Conference, 2023. (In Begutachtung)
Project partner
University of Stuttgart
Leibnitz University Hannover
German Aerospace Center
Technical University Kaiserslautern
Wobben Research and Development GmbH
Funding
Supported by: Projektträger Jülich
- Funding code: 0325719F
- Project Duration: 3 Jahre
