The project developed a microbial fuel cell (MFC), capable of generating electricity by degrading the organic matter in wastewater. The bacteria absorb energy by extracting electrons and protons from
In the context of the project, new concepts were developed to produce proton-conducting polymer membrane fuel cells for use in a wide temperature interval over 100°C. The project synthesised new super
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 goal of the present project was to develop new effective materials for hydrogen storage based on light elements. There are many known hydrides with higher weight percentages of hydrogen; however
The objective of the project has been to develop a compact fuel cell generator using methanol as fuel. The DMFC module will be tested as power generator for internal transport using a Mini Crosser
The purpose of the project is to further develop a Danish natural gas reformer system including optimisation of subsystems and the overall system consisting of a natural gas reformer and fuel cell CHP
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 main purposes of the project were 1) to develop new catalyst materials by applying ‘flame spray deposition’ (FSD); 2) to optimise state-of-the-art MEA materials and electrode structure; 3) to
A scale 1:40 Wave Star wave energy converter has gone through more than 600 different wave tests in order to map the characteristics of the machine and optimize the annual energy production in a
The project aimed to find new electrode materials for hydrogen development able to replace the costly and rare platinum normally used in PEM fuel cells. The project succeeded in demonstrating that