The objective of the project is to demonstrate load reduction potential on tower and foundation of the PP-2B wind turbine concept designed to meet the needs of the existing and emerging offshore winid
This project addresses four specific aeroelastic design challenges of wind turbines through development, demonstration and implementation of new tools and models. The project is carried out in close
To ensure the reliability of large multi megawatt wind turbines, it is essential that the international standards that are used in its design are upgraded. With the objective of providing the right
The goal of the project is to further develop setup in order to erect a prototype tower with hub height of 140 m. This involves refining the design, development of moulds and erection equipment, and
The aim of lEA Bioenergy Task 37 is the international collaboration and mutual exchange of research, knowledge and information between the member countries, in the area of production and utilisation
The self-hoisting crane can greatly reduce the cost of service on wind turbines when major components such as gearbox, generator and rotor needs to be replaced. The self-hoisting crane can substitute
The aim of the project is to design highly efficient, low cost and low noise wind turbine blades, thereby making Danish wind turbine blades more competitive in the future wind energy market. The idea
The project involves development of a predictive structural health monitoring methodology and prototype for early detection and prediction of damages of wind turbine's critical structural elements as
The project concerns the development of a demonstration prototype of a component for the mounting of a wind turbine blade. The strength, a key feature of the component, is to be experimentally
We have together with our development provide a solution and give the windmill owner, or the mill operator, an early warning of potentially serious errors.
The vision of this project is to develop a new wind turbine tower of steel and Ultra High Strength Concrete (UHPC). With this new technology it will be possible to produce towers of a height that
The objective is to develop a system that permits a diesel engine to run on bio-ethanol with high efficiency and low emissions. R&D in system components, catalyst as well as fuel injection and engine
The project develops and demonstrates a new biogas infrastructure consisting of 35 km biogas grid, connectiong 5 farm biogas plants with Skjern Power Supply. This is the first stage in ''Ringkøbing
ComBigaS will develop a biogas plant where the slurry is being produced so the flow of energy is being minimized. The systems are developed with an eye to the standardization and thus facilitate makes
The result is the construction of a Mobile Assembly Unit, which ensures the assembly of shell towers on site in a rational and safe way. On the basis of the development work 8 Mobile Assembly Units
The objective is to develop the experimental platform needed to design stronger and more reliable wind turbine blades. This will be achieved by developing new test and measuring methods. A design
The goal for this demonstration project to undergo an independent validation of wave energy machine "Rolling Upright" in the wave tank under controlled conditions, and in doing so have developed a
Based on the Stirling engine technology the goal is to demonstrate how small scale RE based CHP plants can be the solution for many small and medium sized companies to reach a more green production
LEANCON Wave Energy
ForskVE
2012
2016
This ForskEL project will document the energy production of the wave energy converter MAWEC in real production mode. The overall project description is the same as in PSO project "Advanced Wave Energy