This project is the first phase in the development of an advanced test facility which will enable the wind power industry to develop and test new grid connection solutions, and validate the grid
The objective of the project has been to develop and commercialize nacelle-LIDAR technology for power performance verifications such that the expensive and often difficult use of met masts offshore
The project dealt with: optimal use of vortex generators, VGs, that are presently used on most wind turbine blades. Their main effect is to delay separation in the inner part of the blades where for
The projecthas developed a methodto measurenoisefromairfoilsinan industrialwind tunnel,which willhelp to increase theDanishwind turbinecompetitiveness.The methodisthe key tonew
It is a concern in wind energy that wind turbines do not yaw efficiently into the wind due to draw backs of nacelle anemometry. The loss of power is estimated to be 1-3% in flat terrain and offshore
The main goal of the project was to develop, demonstrate and implement new tools, models and components in the design process for aeroelastic optimization of Mega-Watt wind turbines with the scope of
The project has used tools for process simulation to improve understanding of wind turbine blades. Based on the measurements, the project participants designed a new wing, followed by a demonstration
The Megavind Partnership was founded in 2006 and the project 2008-2010 is a continuation of the earlier stages of the partnership. It has been the goal of the partnership to establish the foundation
The work is a part of the international cooperation to the IEA-Wind Implementing Agreement, and belongs to a new task - Annex 28: Social Acceptance of Wind Energy Projects. The project has collected
This project is motivated by the vision of being able to understand and model complex structural mechanisms and failure in large composite structures such as current and future wind turbine blades