The project will design and test innovative blade tips for wind turbines which can increase the existing rotor size, producing up to 8% more energy per year, while regulating loads in a smart way.
Every wind farm project requires accurate resource assessments to evaluate the energy yield and profitability, but for projects in hilly, mountainous or forested areas the measurement campaigns can be
Small cracks in wind turbine bearings are responsible for some of the most expensive wind turbine failures. Today, there are no certain methods of preventing the cracks, but a new project led by DTU
The DreamWind project is a collaboration between Vestas, Aarhus University and the Danish Technological Institute aiming at the development of novel recyclable composite materials for future wind
The foundation for wind turbines at sea needs to withstand occational extreme waves. Extreme waves are a well known phenomenon, however the exact stress they put on under water foundations are not
LM WIND POWER A/S
Innovationsfonden
2015
2018
The project OPTI_MADE_BLADE has as its goal to develop and commercialize a new concept for procuction of large (>70m) wings for offshore windmills.
Innovationsfonden
2014
2018
The project INNOMILL works towards development of a more profitable and ultra flexible high precision system for fabrication of big elements in the wind mill industry. The goal is to reduce the cost
ABYSS develops novel mathematical models and numerical optimization techniques for advanced optimal design of cost effective offshore wind turbine support on deep waters. The ABYSS techniques take
The main objective of the project is to develop a scientific foundation to enable design of a fluid power transmission to be used in wind turbines and wave energy converters. This technology may be
The Bucket Foundation is a next generation novel foundation concept for offshore wind turbines that is capable of delivering significant reduction in Cost of Energy.
Application of wireless technology as sensors on wind turbine blades will enable design of long, light-weight blades that in combination with advanced controls serve to reduce cost of wind energy.
Superconductivity is a promising technology for decreasing size and price on generators for large wind turbines. Laboratory test are to validate the design basis before a full scale generator is
The objective of this project is to understand inducement and blocking mechanisms of local acceptance of wind power and similar renewable energy technologies. The aim is to adjust or redesign the