Building on the results achieved in a first EUDP project, the purpose of this project is to finalise the development and testing of the technologies needed to produce extra – tall 3D printed wind
Power Curve, the Technical University of Denmark and Statkraft collaborate in order to develop a trailing edge serration product for wind turbine blades that offers increased noise reduction fea-tures
The purpose of the Thunderbolt project is to be able to deliver a fully commercialized service on subscription to the wind energy market after successful project execution, making it possible to
The project is dedicated to enhancing the efficiency and cost-effectiveness of foundation design for offshore structures such as windfarms and energy islands. The envisioned solution involves the
The project allows Floating Power Plant (FPP) to optimise and further develop novel floating wind concepts. The output will be three large demonstration activities and six innovations, including a
Aeromine is a novel, building integrated windenergy system intended to compete with or supplement industrial rooftop solar PV. The EUDP project will improve the understanding of- and demonstrate how
Formålet med projektet er, at have mere pålidelige WTG-vinger i drift med forlænget levetid, sænke OPEX og optimere AEP, gennem anvendelsen af en risikobaseret tilgang. Hvis vingerne kan forblive i
The PossPOW project developed a verified real-time power curve for offshore wind power plants, also applicable under downregulation. Concert will enrich this to a full asset optimisation package
NetVind aims toward the green transition in Denmark, by rethinking the way of using wind power plants in distribution systems. NetVind analyses and demonstrates in a large experimental facility, which
The NSON-DK project is the Danish part of a North Sea Offshore Network (NSON) project umbrella with research participants from UK, Germany, Norway and Netherlands. The purpose is to study the impact
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.