The durability and performance of fuel cells have a major impact on the most important challenges facing fuel cell commerciallization including cost, mass production, system integration, functionality
The project objective was to perfect Danish technology in high temperature PEM fuel cells. It lasted two years and addressed the fuel cell components membranes, cells and cell stacks. The primary
The project is a core project of the Danish SOFC programme. The goal of the project was to continue developing SOFC cell and stack technology while reducing production costs, the aim being to meet the
The project develops proton-conducting and mixed proton-electron conducting materials stable in atmospheres containing CO2. The materials will be used in future energy-efficient and environmentally
The objective of the project was to improve the durability of the membrane electrode assemblies of PEM fuel cells by studying the basic degradation phenomena of carbon supported Pt catalysts and
The EU's and the Danish government's goal of replacing major parts of fossil fuels with sustainable energy sources requires new processes to be developed for conversion and storage of energy, for
The Use of the TEG technology with a Solid Oxid (SOFC) system. The TEG (Thermoelectric Generator) consists of a number of TE elements which are semiconductor elements on a string literally wrapped
Two DMFC generator modules 0.5 kW and 1.0 kW have been constructed for demonstration in UPS and battery charging applications. The overall goals defined in the Danish “DMFC Road Map” for 2008 has been
The demonstration plant includes the following elements: Container buildings for control and monitoring as well as housing of the process equipment. Two fully automated PEM-CHP fuel cell units of 2 kW
Under the Danish-Canadian project, Dantherm Power developed a fully integrated UPS system based on Canadian-based Ballard’s air-cooled LTPEM fuel cells. Eleven UPS units were installed to support
A novel concept for preparation of sulfonate containing fluorinated block copolystyrenes have been developed based on initial ATRP of fluorinated styrene monomers. The strategy depends on well defined
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 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
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 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