The partnership evaluated up-to-date knowledge in the area. Against this background, method guidelines will be prepared for assessing costs and advantages of integrating large wind energy shares in
The project objective was to undertake a screening of commercial natural gas reformers to be used in combi-nation with low temperature PEM fuel cells in the power range 2-3 kWe.
The project built on the results of a 2001 hydrogen project which focused on hydrogen as an energy carrier in a purely Danish system. The perspectives of this project were extended to include the
The project was focused on the development of new design methods for wind turbine blades, so that uncertainties associated with damage and defects can be reduced.
The overall aim of the project was to determine what effect the energy policy introduced through the law on CO2-quotas would have on the development the energy sector in Denmark.
The aim is to make information about Danish energy research and its results available to users in Denmark and abroad and, through international co-operation, to make international research and its
The aim of the project is to elaborate and disseminate knowledge about the development of the heat supply of residential areas in the future in terms of the changed conditions.
The study contaiins a review of the current sorption gas fired heat pumps for residential space heating and also the visible development trends. A prototypw heat pump has been laboratory tested.
The overall objective of the project was to ensure the development of an aeroelastic design complex, which can create the basis for the next generation of wind turbines and make new design trends
The project evaluated the benefit of compressed air energy storage (CAES) in a Danish system, where wind power accounts for 20% of consumption and CHP for 50%. The project starting point was energy
The project produced innovative methods and software tools needed to simulate, validate and optimise carbon capture from, e.g., flue gas, concrete production or pharmaceutical fermentation.
More than 50% of Danish oil is unattainable because the pores in chalk reservoirs are so small. Nano-Chalk explores ways to enhance particle growth thus increasing pore size and oil pro-duction.