DC1: Impact of unsteady atmospheric flows on airborne wind energy systems
Technical University of Denmark (DTU)
DC1: Impact of unsteady atmospheric flows on airborne wind energy systems
DC2: Robust operation of AWE in low and high wind speed conditions
Kitemill AS, PhD enrollment with DTU
DC2: Robust operation of AWE in low and high wind speed conditions
DC3: Robust Autonomous Control of Onboard Generation AWE System
Politecnico di Milano
DC3: Robust Autonomous Control of Onboard Generation AWE System
DC4: Fully Autonomous AWE operation over Long Time Horizons
Politecnico di Milano
DC4: Fully Autonomous AWE operation over Long Time Horizons
DC5: Optimal Scaling and Clustering for Airborne Wind Energy
Delft University of Technology
DC5: Optimal Scaling and Clustering for Airborne Wind Energy
DC6: Wind Farm Optimization and Operation
Politecnico di Milano
DC6: Wind Farm Optimization and Operation
DC7: AWE Operation for Grid Serving Behaviour
Kitepower BV, PhD enrollment with TU Delft
DC7: AWE Operation for Grid Serving Behaviour
DC8: Reliable and Functional Electrical Systems for AWE
Munich University of Applied Sciences
DC8: Reliable and Functional Electrical Systems for AWE
DC9: The mutual impact of AWE based plants on the electricity grid
Munich University of Applied Sciences
DC9: The mutual impact of AWE based plants on the electricity grid
DC10: The economic potential of AWE in the European electricity grid
Technical University of Denmark (DTU)
DC10: The economic potential of AWE in the European electricity grid
DC11: Strategies for AWE commercialisation
Delft University of Technology
DC11: Strategies for AWE commercialisation
DC12: Achieving Technological Legitimacy for Airborne Wind Energy from both a local planning and broader social-political context
Technical University of Denmark (DTU)
DC12: Achieving Technological Legitimacy for Airborne Wind Energy from both a local planning and broader social-political context