The project aimed to improve stack technology for solid oxide fuel cell stacks (“SOFC”). The project developed and tested several improved stack components, including improved glass seals and
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 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 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
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
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
This project is the first phase of a project consisting of three phases, which aims at demonstrating micro CHP based on Danish fuel cells. The project will test three different fuel cell technologies
It is a common opinion that water electrolysis is an available and mature technology, which is not wide spread because it is too expensive compared to steam reforming of hydro carbons. As a
A report was completed in summer 2007. The report was successfully presented at the PREHEAT seminar, which took place at the Intersolar exhibition in Freiburg, June 21-22 2007. A PowerPoint
The project objective was to study the possibilities for new and cheaper methods of generating ozone by means of different types of micro-plasma generators: DBD, MHCD and CPED. This project
The aim of the work is to participate in the IEA Hydrogen Implementing Agreement (HIA), in order to stimulate and co-ordinate hydrogen activities in Denmark.
The main activity is semi-annual workshops focusing on presentations of model analyses and use of the ETSAP' tools (the MARKAL/TIMES family of models).
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