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 annex will give the participants an overview of the technical and environmental assessment challenges encountered in offshore applications and help them to understand the areas of further R and D
The project included the second phase of a process aimed at establishing a platform for wind turbine simulation as a prerequisite for advanced electrical design and optimisation.
The aim of the project is to develop, verify and implement a detailed physical model for the wind field in a wind farm. The model will allow for detailed aeroelastic simulation of wind turbines sited
The overall objective of the project is to ensure the development of an aetoelastic design complex, which can create the basis for the nest generation of wind turbines and make new design trends
This project, HAVDIM2004, aimed primarily at analysing already accessible measurement data from the two Danish offshore wind farms Horns Rev 1 and Nysted Offshore Wind Farm. The project focused on
The project generated results in selected areas of flexible multibody wind turbine modelling. Monte Carlo statistical response simulations and failure probabilities require significantly reduced
In DTU's and LM Wind Power's wind tunnel, the project performed several measurements of the flow behind vortex generators (VG). The project proved that the induced vortices effectively counteract
The project aimed substantially to strenghten the scientific basis for the wind turbine sector in general with particular focus on the Danish sector’s position in offshore wind farms. To meet these
This project demonstrated that further improvement and automation of wind power predictions within a 48-hour horizon is possible if the underlying tools such as WPPT (Wind Power Prediction Tool)
The object of this project was to show the existence of high-frequency fluctuations. The measurement of these fluctuations and the subsequent frequency analyses revealed that these frequencies may be
The object was to improve existing PARK models for calculating array losses for wind farms with focus on large offshore wind farms. The project shows that intelligent use of the model parameters
The compiled measuring results and modelling tests produced a scientifically founded basis for providing recommendations for future offshore wind farms in respect of mutual distances between farms and