The project produced innovative methods and software tools needed to simulate, validate and optimise carbon capture from, e.g., flue gas, concrete production or pharmaceutical fermentation.
More than 50% of Danish oil is unattainable because the pores in chalk reservoirs are so small. Nano-Chalk explores ways to enhance particle growth thus increasing pore size and oil pro-duction.
In this project next generation fuel cells are developed towards commercial applications. The projects is based on efficient and robust metal-based fuel cell technology.
Metal supported solid oxide fuel cells were developed for operation in temperature interval 550 – 650 degrees C. Fabrication techniques suitable for large scale production of half cells comprising of
The object of this project was to determine the relationship between emissions from gas engines, start/stop procedures and market terms. The project showed that emission factors for natural gas
The project demonstrated and documented the RECCAT system in full scale on the 1.5 MW Rolls Royce engine of Rask Mølle heating plant. Too small reactor size entailed reduced ability to maintain the
The DK-SOFC b line is targeted towards: 1) decrease of the operation temperature without increasing the area specific resistance, 2) increase of the ro-bustness of the cell, 3) better understanding of
Under the IEA-ETDE (Energy Technology Data Exchange) agreement a common database is produced containing descriptions of journal articles, reports, books, conference papers etc. published in the member
The goal of the project was to develop and demonstrate a 3 kWe DMFC generator aimed for Uninterruptible Power Supply. How-ever, a detailed concept evaluation based on the present Danish DMFC stack and
The goal of the project is to develop and test small (2 kW) reformers for converting natural gas into hydrogen for use in Proton Exchange Membrane (PEM) fuel cell cogen units for single-family houses
KORA, Det Nationale Institut for Kommuners og Regioners Analyse og Forskning
EFP
2004
2010
The aim of the project is the quantitative evaluation of the effect of Danish Energy Labelling Scheme in 1998-2001 and Building regulations BR77, BR82, BR-S85 and BR98 on natural gas consumption. The
Measures are already being taken to reduce further risk of bottle-necking by changing the conditions under which the decentralized power stations operate and amending the law that forbids the use of
The project co-financed Danish participation in a European partnership under the 6th framework programme to test whether gas from thermal biomass gasification can be purified sufficiently to be used
The project co-funded Danish participation in an EU subsidised Coordination Action. Micro-CheaP looked into the possibilities of using solar energy, biogas and biomass in CHP plants of less than 100