This project aims at improving the forecast of wind and waves for storm conditions offshore. We explore coupling strategies for the atmospheric, wave and ocean modeling using WRF (WRF-LES), MIKE 21 SW
The costs of the management of seabed wind farm interaction is high, around one third of the total costs of the foundation of offshore wind farms. The aim of the project is to reduce these costs by
The Megavind Partnership´s vision is to maintain and develop Danish position as wind energy hub and home to the world´s leading companies and research institutes. Megavind´s objective is to identify
Interruptions of installation/uninstallation of wind turbine blades due to high wind speed are a huge cost for the wind industry, especially offshore. The objective of this project is to be able to do
A unique and dedicated software tool for small and medium size wind turbines - Online WAsP - is proposed to ensure inexpensive but accurate calculations of energy yields, noise impacts and financial
The objective of this project is to establish a novel type of wind load simulator where the true nature of wind can be simulated. The wind load simulator is central part of a new generation of test
The purpose is to develop and demonstrate a solution, an integrated Crane Basket, solving the challenge to get technicians access to blades on installed turbines – on- as offshore, for safe and
Task27 will focus on the research needs for understanding small wind turbines and their performance in environments of high turbulence including the built-environment. The subtasks are: Continue the
The purpose of ODIN-WIND is to develop and demonstrate a management tool for the decommissioning of offshore wind turbines. The tool will enable stakeholders to reduce the risk, cost and time spent on
To develop and demonstrate cost effective solutions for mitigating leading edge damages on blades on both existing and future wind turbines, based on Bladena’s patented technologies for mitigating
The IEA Wind Task 33 is dealing with databases for optimizing reliability and maintenance procedures for wind turbines. The aim is to address the different developments of data collection and failure
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