Efficient heat pumps running on renewable energy can contribute significantly in reducing Danish CO2-emissions. This project extends the knowledge in the field of heat pumps based on magnetic
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
The building sector can deliver large energy savings, yet lack of user understanding and accept is a limiting factor. UserTEC studies various users’ response to building technologies in order to
The FCCF-APU project aims to develop an APU (auxiliary power unit) for electrical vehicles which can be operated with conventional fuels like petrol or diesel. The FCCF-APU project will propose an
The FCCF-APU project aims to develop an APU (auxiliary power unit) for electrical vehicles which can be operated with conventional fuels like petrol or diesel. The FCCF-APU project will propose an
The development of new, highly efficient and compact catalysts for diesel vehicles will ensure an improved air quality and create jobs within this, the world’s fastest growing catalyst market.
The objective is to increase the offshore oil & gas production efficiency and ensure a better utilization of the oil recovered at sea by employing the advanced plant-wide control methodology.
It is risky to develop deep oil and gas reservoirs at extreme temperatures and pressures in the Danish North Sea. We try to reduce the technical risks to unlock those abundant energy resources.
Micro fuel cells for hearing aids will be lifted from demonstration to pilot production through optimization and scaling up of critical manufacturing processes and focus on integration in hearing aids
Solid oxide fuel cells (SOFCs) are a flexible and efficient power production technology well suited to the demands of a Smart Grid. This project will make significant progress towards smart grid ready
SOFCs improve energy usage by providing high efficiency and dynamic operation. The METSAPP project will demonstrate that metal-supported SOFCs enhance robustness and lifetime, as a strategic
During the project there will be developed models, that combines energy efficient perfomance of the indoor climate for three buildings and fitted the electricity spot market's variable prices for the
The project will highlight the causes for that the actual energy consumption in modern office buildings is much larger than expected during the project engineering (planning) and therefor the building
The project will contribute with a more correct calculation of the actual energy consumption for heat pumps and cooling systems in the simulation programme Be10 by designing and implement better