The consortium will improve the energy collectors and energy efficiency on the most weight and cost-efficient wave energy system currently in development. The EUDP project targets the primary CAPEX
Building on the results achieved in a first EUDP project, the purpose of this project is to finalise the development and testing of the technologies needed to produce extra – tall 3D printed wind
Power Curve, the Technical University of Denmark and Statkraft collaborate in order to develop a trailing edge serration product for wind turbine blades that offers increased noise reduction fea-tures
The purpose of the Thunderbolt project is to be able to deliver a fully commercialized service on subscription to the wind energy market after successful project execution, making it possible to
The project is dedicated to enhancing the efficiency and cost-effectiveness of foundation design for offshore structures such as windfarms and energy islands. The envisioned solution involves the
The project allows Floating Power Plant (FPP) to optimise and further develop novel floating wind concepts. The output will be three large demonstration activities and six innovations, including a
Aeromine is a novel, building integrated windenergy system intended to compete with or supplement industrial rooftop solar PV. The EUDP project will improve the understanding of- and demonstrate how
Formålet med projektet er, at have mere pålidelige WTG-vinger i drift med forlænget levetid, sænke OPEX og optimere AEP, gennem anvendelsen af en risikobaseret tilgang. Hvis vingerne kan forblive i
The Megavind Partnership was founded in 2006 and the project 2008-2010 is a continuation of the earlier stages of the partnership. It has been the goal of the partnership to establish the foundation
The work is a part of the international cooperation to the IEA-Wind Implementing Agreement, and belongs to a new task - Annex 28: Social Acceptance of Wind Energy Projects. The project has collected
The purpose is to build a 500 kW wave energy demonstrator for the North Sea, as a first very important step towards commercialisation of wave energy. The EUDP funds mainly cover the very extensive
This project is motivated by the vision of being able to understand and model complex structural mechanisms and failure in large composite structures such as current and future wind turbine blades
The project is based on a previously tested 1:40 model of a new type of wave energy converter, which has so far shown good properties. The objective of the project is to measure loads on the
The project aims at developing a meteorological software tool for large wind farm planning. The project is based on data from previous projects on large wind farm shadow effect. The existing tools
The project focuses on a theoretical and experimental study of floating platforms for wind turbines, wave power systems and the relationship between wind and wave power. The project basis is the
The first step is to combine a hydrodynamic model of the waves with a dynamic model for the mechanical and hydraulic PTO system to achieve an understanding of the principles behind optimising energy
Optimization of power production and reliability of the Wave Star prototype in Hanstholm. The funding is given as a temporary additional per production hour, and is activated by attainment of
The project will test the abilities of the wave wing as an energy absorber. The test will be performed in the wave tank at AAU following preparation of measuring setup, component list and plan for
The objective is to improve the design basis for large wind turbines by measuring wind and turbulence profiles at high altitude above a flat ground using modern instruments. The project will study