The purpose of this project is to analyze and to identify the need for more technological development of hydrogen technologies for these to be integrated in the future Danish Energy system. These
The project purpose is to define and demonstrate the extent to which the Danish gas distribution system can be used as infrastructure and energy storage for an energy system – fully or partly – based
Induction heating for stream reforming of methane has the potential of opening a new path for cheap hydrogen production. This project will make proof of concept to enable further commercial
Surplus of RE-power can through electrolysis be converted into hydrogen, which can be stored in the gas infrastructure. M/R stations will be tested via on-site generated hydrogen for suitability for
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
The project KDFuelCell is about a Korean-Danish collaboration on the development of PEM full cells. This is a very active area of research in both countries. Focus is on the central components, such
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 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
Hans Aage Hjuler (applicant) has been elected to IEA´s working group on “Advanced fuel cells: Annex 22: Polymer Electrolyte Fuel Cells”. Futher, Hans Aage Hjuler has been elected to the Scientific
The project will optimize MW electrolysis technology by developing a highly efficient power supply. The power supply will provide ancillary services in terms of power and frequency regulation for grid
The aim of the project is to exchange information on international development in the field stationary fuel cell systems for distributed generation of electricity. The insight gained is shared with
The project aims to demonstrate energy efficient production of pressurized hydrogen using pressurized solid oxide electrolyser cells. The project also examines the techno-economic potential of the
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.
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
The project explores a new type of alloys for low temperature polymer fuel cells. This is to reduce the content of rare and expensive platinum without having to compromise with the life span and
High temperature polymer fuel cells hold a large potential as they are simpler than traditional cells. Denmark holds a strong position in this field, however further research and development is
A fossil free energy system requires great flexibility in the grid. Lithium batteries, which have in recent years undergone a great development in regards to price and performance, can add such