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
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
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
Design and planning of wind turbines involves considerable uncertainties related to estimating the energy production and to assessment of loads and load carrying capacities.
The project aimed at studying the effect of inflow turbulence in blade calculations by using CFD and with several Delayed Detached-Eddy simulations (DDES) for blade profiles, both profiles in free
The project focused on 12 MW wind turbines, i.e. the next generation of multi MW wind turbines being developed for offshore wind farms. These gigantic wind turbines with hub heights of 170 m and rotor