Clean Air Heat Pump project – modelling and simulation on energy savings when using the clean air heat pump for ventilation, air cleaning and energy recovery. The total energy consumption of the
This project covers the first of two phases and it has commenced development of an analysis and design tool. With the conclusion of phase 1, the tool can manage simple building geometries and it has
In collaboration with test families, that lives in the experimental low-energy house EnergyFlexHouse, a concept is developed for control of all energy services for the lowest possible energy
Maritime diesel engines emit vast amounts of harmful substances. A reduction takes better knowledge of emission formation inside engines. RADIADE advances further the theoretical models of large
The energy efficiency of many industrial processes can be imprived by converting waste into electrical energy using so-called thermo electrical materials. OTE-POWER develops ceramic modules for high
Subterranean layers of sandstone can be an important storage of heat energy from renewbale energy sources by pumping down hot water. HEHO develops an integrated model for predicting how pumping down
Electronics that control and convert electricity (power electronics) is a cornerstone in our energy systems and the conversion to sustainable energy. CORPE seeks to develop tools for design of cheaper
Hydrogen from electrolysis is a reliable and clean medium for energy storage. However, the technology for electrolysis is inefficient and expensive. MEDLYS will develop and test efficient, cheap and
Despite existing modern technologies about 70% of Danish oil resources are considered unrecoverable. Advanced biotechnology could improve oil recovery and reduce transport systems downtime.
Particle accelerators bring atomic particles close to the speed of light using high current electromagnets. The project aims to develop magnets that will significantly reduce power consumption.
The project purpose is to develop advanced pro- cess technology that enables industrial produc- tion of environmentally friendly cement of high quality and with low CO2 emissions from locally
ALPCON A/S
ForskEL
2010
2011
The main purpose of the SOFTEG phase II project is to develop a high efficient TEG based on the TE material Zn4Sb3. The TEG will be integrated and tested in a Solid Oxide Fuel Cell (SOFC) micro
University of Copenhagen will in this international IEA – project; contribute to a better cooperation between teen leading bio mass – producers and the using countries. To expand the use of the
The project relates to participation in international corporation in an annex related to lEA (International Energy Agency) on stationary distributed generation of electricity in small power units. In
The project relates to participation in international corporation in an annex related to IEA (International Energy Agency) on stationary fuel cells for distributed generation of power in small units
The vision of this proposal is to solve the last two inherent problems faced by electric vehicles; A short range and a long recharging time. This is achieved by the development of a highly integrated