The purpose of this project was to reveal the possibilities of transport of hydrogen via the existing Danish natural gas grid. The investigation only covers the distribution grid. For this purpose, a
The goal of the project was to construct and test a 10 kW CHP (5 kWe) PEM FC generator aimed for single-family households in Denmark. Two generators, each 'half size' of the project generator goal
The PEM fuel cell car will function as a laboratory where components and modules in the future can be upgraded with improved version. Danish industry gets in this way an opportunity to develop and
The project will demonstrate the concept of application of reversible fuel cells integrated into a building, with generation of hydrogen from excess electricity from nearby renewable energy systems
Based on the results from the project's Part l, the purpose of project tasks described in this report was to reconfigure / update the vehicle for dynamical operation with a Danish-produced PEM fuel
The activities were: Development of improved components, analysis of durability, contacting, improving the methods, materials development, studies of mechanisms and of defect and structural chemistry
In the autumn of 1999 the IC plant at Nordborg Power Plant was commissioned, and following that the emissions and emission reductions of the plant were measured.
Goal: To demonstrate the performance of a fuel cell bus in Copenhagen. Programme/Plan: When the bus is constructed, it will go into service in Berlin and then Copenhagen.
A 20 Nm2 Hydrogen storage has been specified to be used in a Ford Focus equipped with an internal combustion engine. The storage is constructed from commercial available metal hydrides.
The objectives of the project were to develop and manufacture a lightweight storage for hydrogen usable for pressures up to 300 bar and based on fibre reinforced tanks. Three storages have been
The objectives of the project have been to design and construct a PEM fuel cell driven car, which can be used for demonstration of hydrogen as a fuel in the transport sector. The project has been
The project is divided into two parts, i.e. a general review part and a project specific part. General: 1) General review of safety aspects related to hydrogen driven vehicles and related stationary
A method has been established for production of the anode supported thin-electrolyte cell. The anode supportis 200mum thick and made of NiO and TZ3Y by tapecasting. The electrochemically active anode
The main purpose of the present project has been to test a new type of MCFC unit developed in previous phases of the project. Various parts of the plant e.g. MCFC stack, reformer, catalytic burner