The goal of the project is to develop a barge to jack-up vessel loading technology, which can operate in wavw height of 2.5 m, and that will increase the operation window significantly.
WindCal2.0 will develop and demonstrate a nacelle-mounted lidar calibration method where highly accurate lidars replace cup anemometers as the calibration reference and robots automate and speed up
The project develops a drone inspection solution and digital documentation that recognize and categorize surface errors and measure parts of industrial structures with high precision.
The objective is to ensure future large-scale nacelle test facilities are technical and economically feasible for the wind industry. This will be done by further developing and demonstrating R&D Test
The project partners aim to develop and demonstrate a subsea robot, ACOMAR - Auto COmpact MArine growth Remover, which increases atomization of the marine growth removal process on offshore structures
The project purpose is to deliver easily accessible metocean siting data for design and planning anywhere offshore. Through a scalable quality/cost structure ranging from free general data analytics
The project objectives of GOTWind is the optimization of bolt technology for wind turbines from production until end-of-life. Overall, this project will ensure that there are set out general rules in
The primary objective of IEA Wind TCP Task 26 is to generate and provide information on cost of wind energy in order to understand past, present and anticipated future trends using consistent
The goal of the WindWeld project is to increase the metal fatigue performance of large welded steel structures using an automated device, which is developed and demonstrated in the project, to
The purpose of DMDS – Demonstration of Modular Drive System is to develop and demonstrate a new type of drive technology for large scale test benches. The Modular Drive System (MDS) will allow for the
The purpose of the CORTIR project is to gather the value chain of the wind industry with the goal of reducing the costs and risks concerning wind turbines in the field. During the project a Decision
The project supports in 2019 the Danish Energy Agency's participation in the International Energy Agency (IEA) Wind TCP Executive Committee (ExCo) and strengthens communication and network activities
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 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