The APRS will decrease time invested in manual material lay-up in the large moulds and improve blade quality. This results in expected decrease in man hours for lay-up and repairs by 120-140 man hours
The aim of this project is to develop a comprehensive approach, to produce large wind turbine blades fully recyclable and sustainable. To tackle the waste issue of wind turbine blades and
Increased digitalisation is key to combatting climate change, with potentially 10-60% reductions of energy consumption and CO2 emissions. The challenge to harvesting these benefits is the
Floating wind energy is a cornerstone of a carbon-free electricity supply. The Danish offshore wind industry is in a key position to play a leading role in the coming market, which is
DanQ is the first large-scale Danish effort aimed at building an integrated quantum computing eco-system pursuing commercially and societally relevant applications within the Danish green
The global shift of energy paradigm to carbon-free technologies has significantly increased the penetration of grid-tied power electronics. Power electronic systems are a key enabler in the
Conventional manual manufacturing methods - hand lay-up and vacuum infusion - are to date predominantly used to produce large-scale Continuous Fiber Composite (CFC) structures for industries
The project aims to develop a symbiotic teleoperation solution to the Wind Turbine Blade (WTB) maintenance. The current solution to the WTB maintenance largely relies on human technicians who
The aim is to design a conceptual design of floating offshore substation which can withstand the dynamic loads from the wave movement. The scope of the work will be split into the design phase of the
The project aims to build up a Danish stakeholder network in the area of wind turbine blade recycling, ensuring integration of specific interests and knowledge
We see Citizen Energy Communities (CEC) and Renewable Energy Communities (REC) as instruments for connecting local citizens, smart buildings, and renewable energy sources intelligently to the local
The objective of BLATIGUE-2 is to develop fast and efficient fatigue testing methods for large wind turbine blades, to develop smart equipment to excite the blades under such tests and to increase
De Nationale Geologiske Undersøgelser for Danmark og Grønland
EUDP
2021
2024
The project SHARP Storage aims to accelerate safe and cost-efficient CO2 storage in offshore geological formations, by developing: 1) tools to assess the risk of gas leakage or induced seismicity at
The purpose of the project is to increase the liability of blades in operation by installing RTZ Solution. Further, the purpose is to reach higher cost efficiency and higher AEP for the wind turbine