The project will develop and demonstrate a new full ceramic SOFC cell concept in a joint approach between materials and processing experts closely together with SOFC cell and stack manufacturers. The
Top up funding for an EU project with European partners. The project is concerned with the details of continuous degradation of SOFC components. Models predicting degradation phenomena and their
This project aims to contribute substantially to the development of a cost effective high temperature electrolysis technology based on solid oxide electrolysis cells (SOECs). The focus will be on
Top up funding to the EU CATION project with Wärtsilä and other European partners. Building on experience with 50 kW demonstration systems, the cathode subsystem is developed and solutions verified
The research concerns reduction of the CO2 emission in the energy sector by using ceramic membranes in preparation of pure oxygen. The membranes make biomass conversion more efficient and reduce the
The project concerns development of new concepts for storage of hydrogen in the gas-state (high pressure) and solid-state, as well as new methods for hydrogen compression which are more efficient and
The project focus on fuel cell based combined heat and power units as active elements for sourcing and sinking power to and from the SmartGrid on Bornholm. This is a pre-project to analyze the need
CATBOOSTER adresses the key bottlenecks for commercialization of PEMFC technologies: Performance, service life and cost. The project focuses on catalyst and electrode development and aims at a boost
The present application comprises co-funding of the IRD participation in the KeePEMAlive FC JTI project that presently is under negotiation for start primo 2010. The overall objective of the
The main objective of the DuRaPEM project is to further develop pathways and technologies for PEM FCs enabling the national target lifetimes to be met. The project approach is systematically to
The solid oxide fuel cell (SOFC) is an attractive technology for the generation of electricity with high efficiency and low emissions. This project will improve the power density, durability, and
HALDOR TOPSØE A/S
ForskEL
2010
2011
PlanSOEC is to develop a R&D and commercialization roadmap for hydrogen and CO production plants based on the solid oxide electrolysis cell (SOEC) technology. This involves analyzing state-of-the-art
TOPSOE FUEL CELL A/S
ForskEL
2010
2011
The aim of this project is to develop a highly durable (>5 years) and a significantly more price competitive SOFC technology, and at the same time develop the basis for demonstrating up-scaling from 1
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
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
The project partners wishes to develop a gas to gas humidifier membrane for use in fuel cell applications that will meet the specified performance requirements as well as size and cost requirements.
For the one year project period, supported by the programme, Risø DTU has participated in the IEA Hydrogen Implementing Agreement Task 22 ''Fundamental and applied hydrogen storage materials
SOFC technology potentially offers a clean and efficient way of producing electricity and heat from a wide selection of fuels. However, before SOFC can be introduced for larger stationary applications
The purpose of the project was to develop materials and structures for compact, low cost fuel cells by a combination of solid state protonic conductors with the technology of thin films.
The HotMEA consortium focuses on HT-PEM fuel cells. Denmark enjoys a position of strength in terms of HT-PEM and may become a leader in the field. The work comprises a broad spectrum from development