The objective of BLATIGUE-2 is to develop fast and efficient fatigue testing methods for large wind turbine blades, to develop smart equipment to excite the blades under such tests and to increase
The purpose of the project is to increase the liability of blades in operation by installing RTZ Solution. Further, the purpose is to reach higher cost efficiency and higher AEP for the wind turbine
Fatigue of fiber rope is crane applications is not well established, why extensive full-scale testing is currently required for using fiber ropes in crane applications. The main objective of this
LERCat enables leading edge roughness (LER) repairs of wind turbine blades at the right time, yielding a 1 bn DKK/year gain across the partners’ turbine fleets. This is achieved by establishing an
The project involves the development and maturement of a drone charging station and a drone system. The combined system should then be capable of conducting autonomous wind turbine inspections and
Managing offshore corrosion is a subject that is heavily regulated and combined with several industry standards that must be followed to ensure the structure integrity of the assets. Yet, whilst, and
The purpose of IDEA is to establish reference site conditions and wind reference wind farm designs for floating wind turbines. The project follows the international IEA project on wind farm design and
The overall objective of this project is to further adapt, improve and expand the existing operational tracking technology that Claviate has developed to cover the entire onshore wind turbine
We aim to demonstrate that a radically new blade technology combining jointed modular blades with advanced tips made with additive manufacturing can enable increased rotor sizes by up to 20% and lead
The objective of Task 25 is to analyse and further develop the methodology to assess the impact of wind power on power systems. The Task has established an international forum for exchange of
The project has generally aim to support Denmark´s participation in the “IEA Wind Energy R & D Implementing Agreement” in 2013 through participation in the Agreement Steering Committee (“Executive
Currently, individual wind turbines can estimate their possible power of during down-regulation. For large offshore wind power plants, the sum of those signals is larger than the possible power of the
The overall objective of the project is to develop a cost-efficient Lidar wind sensor to be integrated on individual wind turbine in order to maximize power production and minimize dynamic load on the
The purpose is to develop and demonstrate methods for cableinstallation, which via improved cable
fabrication and installation can reduce costs for installation of array-, infield- and export cables
To develop and demonstrate the value of a yaw control kit for wind turbines, which continuously measures
the wind direction in front of a wind turbine and subsequently turns the turbine almost
To develop, prepare for market and demonstrate an applicable method for regaining operational life of
installed wind turbine blades with structural defects based on Bladena’s patented technologies for
To improve the efficiency of wind turbine and wind turbine farms using synchronized sensors on wind
turbines, their wings, and in wind fields. The technology is used in development, test, modeling
Based on participation in the IEA Annex 29 Mexnext II, the objective is to validate and improve a number of different aerodynamic and aeroelastic numemrical models used by both research institutions