The objective of IMPACT is to develop computationally efficient and accurate fatigue lifetime prediction methods for adhesive connections in large utility wind turbine roto blades.
The project has generally the aim to support Denmark's participation in the "IEA Wind Energy R & D Implementing Agreement" in 2017 through participation as Alternate member in the Agreement Steering
The Purpose of this project is to develop a methodoly that can supply cheap biomass for production of 2 generation bioethanol and biogas. This will be done by conditioning animal bedding and
The aim is to participate to the IEA Task on Quiet Wind Turbine Technology gathering institutions worldwide. It will first focus on amplitude modulation. The intended results are better physical
The purpose of this project is to establish demonstration, develop solutions fit for market and prove through a series of sub-component tests and on a 7MW off-shore turbine that the technology is
The project work will adress technological aspects of anaerobic digestion (AD). Based on the technical knowledge and expertise of its members the work of the Task 37 provides support to policy makers
RUNE is short for - Reducing Uncertainty of Near-shore wind resource Estimates using onshore lidars. The key project aim is to reduce the uncertainty of offshore wind resources in Danish near-shore
This project aims at testing the Weptos WEC for the first time in an uncontrolled - real sea environment. This will give the opportunity to check the extensive findings from the previous
Force Technology
EUDP
2015
2017
The vision of PCMS - Task 2 is an online Predictive Corrosion Monitoring System (PCMS) that through measurements of few, significant flue gas components can predict and hence optimise the corrosion
MicrobStopNH3 project will use bioaugmentation of ammonia tolerant methanogenic consortia to enhance methane production up to 35 pct in a large-scale biogas reactor suffering from ammonia toxicity
The objective of the project is to achieve final proof of concept of the Wavepiston technology. A scaled model has earlier been validated at University of Aalborg and a pilot project has been
The project aims at supporting an efficient and fast conversion of pulverized coal-fired power plants from operation on coal to biomass pellets. The focus is to investigate key issues that can ensure