Sort by
Refine Your Search
-
erosion on wind turbine blades and aircraft components. LSIMPACT aims to reveal the mechanisms underlying liquid-solid impact damage using innovative experimental and computational approaches, thereby
-
in the process of planning, designing, and operating wind energy installations. This can be at the scale of individual turbines, wind farms, or even wind farm clusters spanning hundreds of kilometers
-
technology and smart energy systems research. The department has 4 divisions: i) Materials and Components for Wind Energy, ii) Wind Turbine Technology, iii) Wind Energy Systems, and iv) Power and Energy
-
-carbon electric power systems, taking into account wake interactions between individual wind turbines. The project focus is on how to generate and utilize reduced-complexity predictive models for windfarm
-
peer-reviewed journals and conferences. Preferred Qualifications: Experience with black-box modeling of wind turbines and converter-based power systems. Knowledge of Lyapunov-based methods, nonlinear
-
. Quantifying circular economy strategies for wind turbine rotor blades, including reuse, recycling, and feedback loops. Assessing the climate mitigation potential of circular construction materials through data
-
numerical methods used to design wind turbines and understand turbulent combustion in jet engines, this research aims to address critical computational challenges in simulating the physical dynamics
-
have become omni-present in our daily life, and they are essential in the green transition as the main components in wind turbines and electric motors in e.g. electric cars. However, the strongest
-
to reduce the complexity in simulating lake physical dynamics at scale. Borrowing from numerical methods used to design wind turbines and understand turbulent combustion in jet engines, this research aims