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 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
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
The purpose of the project is to design, build and test a 2 kW wave energy grid connected Lever Operated Pivoting Float LOPF buoy in the sea. The goal is to collect operational data on electric
RESEN ENERGY ApS
ForskEL
2011
2012
Wave energy, Lever Operated Pivoting Float LOPF, study of new taut moored buoy concept with direct electrical output. It will cover: Basic static theoretical optimisation of LOPF concept, design of
This project utilize the wind and wave energy conversion platform, Poseidon37, for pioneering theoretical and experimental work on modeling and understanding combined floating wind and wave energy
The project vision is to provide wind power with similar grid system interaction characteristics as the conventional generation units. The new technical solutions developed in this project will expand
In this project, validated thermal models will be developed and used for a proposed condition monitoring method of wind turbine generators, using thermal imaging. The live thermal data will be
The purpose of the project is improve the efficiency of Power Take off systems for Wave Energy Converters, by analysing and optimizing a new PTO-system with multiple pressure lines. This includes
HI-CON A/S
ForskEL
2011
2011
As an initial step for FLOAT – a project on using UHPC for wave energy floaters - a study has been undertaken to investigate preliminary design of 2 types of floaters, essential properties of UHPFRC
The focus of this effort is the reduction of uncertainties in offshore wind turbine design, by complete measurement of the effects of interactions of a modern turbine structure (located on the Walney
The objective of the Light Rotor project is to develop the basis for design of wind turbine blades for use on the order of 10MW rotors with lower weight, tailored aeroelastic response and optimized
The purpose is to develop and validate computer codes related to response simulation on offshore wind turbines and their substructures. It is carried out within the framework of lEA Annex 30