Continued participation (since 2005) in the international model community within International Energy Agency on development and use of local, national, regional and global optimisation models, data
Growth processes for GaN thin films on Si wafers with optimized buffer layers leading to high-quality materials having low defect densities will be developed. Active components will be fabricated in
Thermoelectric generators can convert waste heat directly into useful electricity, though no mass production of the active materials has been feasible so far. However, Aarhus University has spent
The proposed solution of the project will facilitate planning and operational analyses. Robust stability and power quality by the proper control of the power electronics interfaces and the integration
CITIES aims at developing methodologies and ICT solutions for the analysis, operation, planning and development of fully integrated urban energy systems. A holistic research approach will be developed
The CINEMA research alliance will develop unique 3D micro-structural characterization methods, which make it possible to investigate components under realistic conditions and in real time. This will
The transition to RE demands for new energy management systems (EMS). It is investigated how modularity-based control can be used in EMS to meet the fluctuating production of renewables using flexible
Denmark has the 1. of January 2013 joined the IEA Heat Pump Programme (HPP). DEA has designated Technological Institute to be representative of HPP's Executive Committee's work.
As different renewable energy sources, like solar, wind and biomass, become more widespread as energy sources in the different energy grids in urban areas, the aim of the project is to investigate how
Oil and income from Danish North Sea are decreasing. One way to increase energy security is to reduce the cost of evaluating reservoir potential. Nanotechnology can help.
Danish technology has cracked the code for future transportation of energy, and two companies and two universities have joined together to bring the technology to market.
The future electrical distribution systems will use more and more direct current (DC). The research project focuses on the development of future intelligent direct-current (DC) microgrids which is
The public-private partnership Smart Energy Networks will support energy policy goals as well as good and sustainable growth conditions for Danish trades and industries. The partnership will enable
This project supports an improved practice on public participation in infrastructure planning. The project has point of departure in Energinet.dk's planning and uses Danish experiences to develop and