Content
- high performance innovative design of a beyond-state-of-the-art 10-20MW offshore wind turbine and hardware demonstrators of some of the critical components.
- a light weight rotor having a combination of adaptive characteristics from passive built-in geometrical and structural couplings and active distributed smart sensing and control
- an innovative, low-weight, direct drive generator
- a standard mass-produced integrated tower and substructure that simplifies and unifies turbine structural dynamic characteristics at different water depths
Organisation
Duration:
January 2012 to December 2017
Project coordination:
Technical University of Denmark (DTU)
Finance:
funded by the EU
with ...
Project partners
DTU
Aalborg University
CRES
ECN
NTUA
TUD
Sintef
Polytecnico di Milano
University of Hannover
University of Oldenburg
University of Patras
University of Sheffield
University of Strathclyde
University of Stuttgart
WMC
Fraunhofer
Fundacion CENER-CIEMAT
University of Bristol
DHI
Rambøll
Siemens
GL
GL-GH
Magnomatics
Suzlon
Gamesa
EWEA
Content at SWE
WP1: Conceptual Design
External conditions (floating lidar buoy, nacelle-based Lidar)
Advanced contols and integrated innovative concept
aero-servo-hydro-elastic simulation and loads analysis of the GAMESA 2MW floating offshore wind turbine
validation of simulation tools with full-scale experimental data