MeTuSA research project

MeTuSA research project

MeTuSA research project Project title: MeTuSA – Methods for the simulation of vortex-excited tower vibrations and for the site-specific design of tall wind turbine towers   Summary: The increasing size of wind turbines also increases the flexibility of...
NearWake research project

NearWake research project

NearWake research project Project title: NearWake – Modeling for the near wake   Summary: The NearWake project creates the conditions for maximum efficient land use of wind energy for new and existing wind farms in Germany, especially for repowering, by...
C2-WAKES research project

C2-WAKES research project

C2-Wakes research project Project title: C2-Wakes – Controlled Cluster Wakes – Control and Mitigation of Large Scale Wind Farm Effects.   Summary: The overall objective of the C²-Wakes project is to investigate whether and how large-scale wake effects...
SMARTYAW research project

SMARTYAW research project

SmartYaw research project Project title: SmartYaw – Self-learning data-based wind farm control with wake deflection for yield maximization.   Summary: The “SmartYaw” project aims at further research and industrial testing of wind farm control...
MOUSE research project

MOUSE research project

MOUSE research project Project title: MOUSE – Multiscale and multiphysics modeling and simulation for wind energy.   Summary: Simulation calculations are a crucial tool for planning and operating ever larger wind turbines. In the new joint project MOUSE,...