RELIABLADE develops and demonstrates techniques to create a unique Digital Twin for each individual wind turbine blade with their unique defects and imperfections. The Digital Twin tracks the current
The project comprises Danish participation in IEA task 29 which overall objective is to facilitate an international collaboration on validation and further development of wind turbine simulation
The GASP project aims at bringing down the Levelized Cost of Energy by reducing uncertainty and providing quality data for turbine siting parameters. This will ensure that the turbines’ structural
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 objective of this project is:
1. High quality measurements with a high service level
2. Accelerated wind tunnel measurements by increasing the turnaround cycles with
standardized and automated
Denmark has long been a leading country in wind power forecasting. This project enables a large
Danish participation in the IEA Wind Task 36 Forecasting. Research organisations and
commercial
The purpose of the Straw2Gas project in full is to demonstrate the use of straw fibres from the JENA straw treatment plant for the production of biogas, and thereby open for a commercial and technical
The cost of offshore jacket foundations needs to be lowered to make this foundation concept competitive. The purpose of the project is to mature and develop a novel offshore jacket node concept, using
The purpose of the project is to strengthen the numerical modelling ability of the HAWC2 model
within 1) long-period motion from nonlinear waves 2) damping from soil 3) aerodynamics for
turbines with
The goal of this project is to perform a trial installation of a full-scale prototype of a suction bucket for wind turbine jacket foundations. The installation is performed at an offshore site near
Reduction of the cost for installaion of WTG towers with 50% at the same time supporting installation for even larger WTG and tower sizes in the future
BioUpgrade is aiming at developing an innovative, efficient and robust technology for biological biogas upgrade, utilising the indigenous hydrogenotrophic cultures of the anaerobic digestion process
This main objective of this project is to demonstrate procedures that can quantify the risk of failure, the remaining structural reliability and the maintenance costs upon extending the life of