RUNE is short for - Reducing Uncertainty of Near-shore wind resource Estimates using onshore lidars. The key project aim is to reduce the uncertainty of offshore wind resources in Danish near-shore
RePlan project is a frontrunner for the integration of large share of renewable energy in the Danish power system. The novelty of RePlan consists in the investigation and verification of the ancillary
The objective is to improve wind farm modeling techniques and establish guidelines for their usage for the industrial and academic partners. This goal will be reached by supporting the extension of
The objective of this project is to develope a test machine, a rain erosion tester, on which rain erosion af wind turbine blades can be simulated. The rain erosion tester can acelerate simulate
A close collaboration between LM Wind Power and DTU aims to demonstrate a business case and map risks of new load alleviating blade technologies combined with multi-disciplinary optimization. A larger
Danish participation in IEA Wind Task 26 extension will enhance collaboration and understanding of cost trends in wind power, and contribute to knowledge dissemination on the cost aspects of wind
This project supports the Danish participation in IEA Wind Task 37 which aims to establish an international forum to catalyze the usage of systems engineering to design wind power plants, taking into
The project has generally the aim to support Denmark's participation in the "IEA Wind Energy R & D
Implementing Agreement" in 2016 through participation in the Agreement Steering Committee ("Executive
With the growing importance of integration of wind energy into power systems, the scope of Task 25 is proposed to be enhanced and broadened and to include collaboration with integration of solar
The DreamWind project is a collaboration between Vestas, Aarhus University and the Danish Technological Institute aiming at the development of novel recyclable composite materials for future wind
This project will develop a novel inspection and interpretation technology for performing in-situ measurements of leading edge surface roughness (LER) and convert these measurements into normative
The overall objective of the project is to demonstrate the system integration, the functioning, the performance and the value of an active flap system by full scale turbine tests. A further objective
The project objective is to drive the novel foundation, known as the Mono Bucket, to full commercial readiness and contribute significantly to reducing costs of offshore wind energy by 30-40%. This
The overall purpose of this project is to develop Medi Sander Wind and significantly reduce costs regarding blade production. The objective will be reached through a new patented technology. In
The objectives of the TrueWind project are to improve accuracy of cup anemometer measurements for wind resource assessment and power curve measurements by introduction of very short range lidar
The target is to demonstrate the Floor as a structural enhancement technology on blades. This will overall reduce failure rates on blades and in the long run reduce the operation and maintenance cost
To design a new guiding system for installation of HVAC booster stations and cable handling concept that will make offshore wind parks more cost-efficient.
The purpose is to develop and demonstrate additive manufacturing methodes in the wind industry. The methods are in this project tested on a Vestas blade section (8 meter I-beam). The methods shall