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
As fossil reserves run out, and global as well as local climate issues become very real, it is necessary to identify technologies and technology platforms that can aid in making the transition to
The goal of BioCap project is to develop novel technologies to open underutilized biomass, so they can be used for biogas production. The University of Southern Denmark has initiated an exciting
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
A novel microbiological platform encompassing extensive microbial community analysis will be established. New knowledge will provide improved solutions for enhanced methane production from manure with
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 main objective of the proposed project is to pave the way for the world’s first commercial bio-refinery for production of low-sulphur bio-marine diesel propulsion fuel based on Steeper Energy's
This project aims at developing a sustainable and competitive lignocellulose based microbial oil technology for production of renewable biofuels. The project will demonstrate the production of
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 project will demonstrate an innovative environmental-friendly technology for biogas upgrading. The technology uses enzyme-based biocatalysts to accelerate the CO2 absorption. The consumption of
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
This project explores the new idea to use hydrogen, produced with excess power from wind turbines, together with CO2 to increase and enhance production of biogas. This will make biogas production
ASHBACK explores environmental and ecological consequences of distributing ash from combustion of biomass back into nature. This will allow backloading of a larger amount of ash in an ecologically
Biochain analyzes the value chains from collection and gasification to energy production and final use of the residue of biogas production. The aim is to identify and overcome the barriers to
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