The Megavind Partnership was founded in 2006 and the project 2008-2010 is a continuation of the earlier stages of the partnership. It has been the goal of the partnership to establish the foundation
The work is a part of the international cooperation to the IEA-Wind Implementing Agreement, and belongs to a new task - Annex 28: Social Acceptance of Wind Energy Projects. The project has collected
This project is motivated by the vision of being able to understand and model complex structural mechanisms and failure in large composite structures such as current and future wind turbine blades
The project aims at developing a meteorological software tool for large wind farm planning. The project is based on data from previous projects on large wind farm shadow effect. The existing tools
The project focuses on a theoretical and experimental study of floating platforms for wind turbines, wave power systems and the relationship between wind and wave power. The project basis is the
The objective is to improve the design basis for large wind turbines by measuring wind and turbulence profiles at high altitude above a flat ground using modern instruments. The project will study
The vision is that the increased research on main wind turbine uncertainties and risk & reliability will lead to less conservative designs and more cost-efficient wind energy. Therefore, careful
The usage of new reinforcement fibre and resin systems allows for novel forms of blade design, cost optimisation and production methods that significantly reduces the production time.
The cooperation project is conducted with a PhD study as its central element and its research will be used directly in wind turbine and wnd farm development so as to prepare common guidelines under
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)