The objective of BLATIGUE is to develop fast and efficient fatigue test methods for large wind turbine blades and to develop equipment to excite the blades under such tests.
Turbines are designed to change its direction as a change in the wind direction occurs, and partial wear occurs when the windmill actively yaws back and forth in a too narrow spectrum for a long time
The aim of this project is to proof the iSpin measurement capability and robustness on a broad scale. The robustness shall be proven based on measurements of a total of around 90 WTGs located in 9
The objective of the project is to develop an offshore self-hoisting crane (OSHC) based on the principles of Liftra Self Hoisting Crane (LSHC). The OSHC must be operable from a floating platform
The aim of this project is to expand the detecation capabilities of the current Windar lidar systems to include a robust wake detection system under varying atmospheric conditions .Develop different
The objective of IMPACT is to develop computationally efficient and accurate fatigue lifetime prediction methods for adhesive connections in large utility wind turbine roto blades.
The objective of this annex is to gather information and ideas for policy makers and decision
makers and planners of energy systems in urban areas concerning the possibilities and barriers
related to
The project has generally the aim to support Denmark's participation in the "IEA Wind Energy R & D Implementing Agreement" in 2017 through participation as Alternate member in the Agreement Steering
The aim is to participate to the IEA Task on Quiet Wind Turbine Technology gathering institutions worldwide. It will first focus on amplitude modulation. The intended results are better physical
The purpose of this project is to establish demonstration, develop solutions fit for market and prove through a series of sub-component tests and on a 7MW off-shore turbine that the technology is