The concept of combining solar power, absorption cooling and natural gas-fired small-scale CHP in Strandby met expectations and could be replicated in other CHP plants. However, it is important to
The project analysed ash from eight different agro-industrial biomasses. The ash was examined in physical-chemical analyses and in leaching analyses. The aim was to study and evaluate usability of ash
The project developed new edge sealing for the DSC cell. Made from inert polymer, the sealing is mounted as laminate in controlled conditions. Laboratory experiments and cell exposure to accelerating
This project changed towards possible commercialisation. Consequently, project cooperation was terminated and part of the work transferred to project 6389 ‘Technical silicon for high-efficiency PV
The project goal was to develop stack materials, components and stack technology, including industrially relevant production methods. Further, the project was to perform tests and demonstration of
The wind farm output of an offshore-farm such as Horns Rev changes between nearly constant output to highly variable power output. A balance responsible would benefit from knowing the variability of a
The project aimed to synthesise new deNOx catalysts with improved resistance to flue gas from biomass-fired units. The project studied various new catalyst materials. In particular, synthesis and
The CEEH will develop a system to support the planning of Denmark's future energy systems integrating both direct costs and indirect costs for environment, climate and health. The CEEH will apply a
The project will study the effects of using biofuels in the Danish transport sector. The analyses will cover both resources and application of biofuels and include a raft of impacts, eg emissions, air
BioREF project provides an integrated and innovative approach to produce a multi-product biofuel from oilseed crops. The overall purpose is to develop a sustainable, cost-effective and competitive
The output of the project can be divided into three main areas: Firstly, results related to the further development and integration of existing tools and methodologies into coherent energy and
SERC was carried out during the period from primo 2007 until end of 2012 I cooperation with leading Danish and International research institutes plus a wide spectrum of industrial partners. The
Magnetic refrigeration is an emerging technology using solid, non-volatile magnetic materials as the active components, and water or alcohol as the medium for heat transport. It holds great potential
The aim of the project is to develop advanced process technology for producing high-quality environmentally friendly cement, which will enable CO2-reductions in the cement industry.
The project aims at providing scientific evidence on the effect of CO2-injection in a limestone area in the North Sea, and on uncovering the business potential of such a procedure.
The main activities of the project were developing improved SOFC electrodes, cells and interconnects through careful characterizations in interaction with new fabrication methods. Major break-throughs
Investigations making it possible to evaluate and further develop concepts to improve electrical efficiency in a waste combustion plant were performed. Furthermore, it was the objective to investigate