Article | Energies | Hydrogen
Hydrogen Production & Storage Platform
The Hydrogen Production and Storage Platform supports the
development of hydrogen as an energy source. The main focus is the solid oxide electrolyzer/fuel cell (SOEC/SOFC), a
reversible hydrogen technology. In co-electrolyzer (co-SOEC) mode, the cell can turn water vapor and CO2 into H2/CO syngas, which can then be transformed into chemical molecules of interest; it can also
operate in fuel-cell (SOFC) mode to produce electricity and heat from a variety of carbon- or nitrogen-based fuels.
CEA-Liten leverages the Hydrogen Production and Storage Platform's resources to develop and test demonstrators of significant sizes at various scales, from cell (where the electrochemical reaction occurs), to multiple-cell stack, to module, and, finally, system.
The Hydrogen Production and Storage Platform is home to:
that covers all process steps: preparation and implementation of the contact layer and seal using chemicals, tape casting, and robotic seal assembly; mechanical techniques like laser engraving; plus crucial quality inspections of each component before the stacks are assembled.
The line also handles packaging and stack performance testing. The total production capacity is 1-2 stacks per week. The equipment is flexible enough to use to develop
new generations of stacks and can also be used to improve the
reliability of manufacturing processes.
The platform also has
state-of-the-art facilities for the development of hydrogen
The European Union has set the target of an economically and socially sustainable carbon-neutral economy by 2050. And hydrogen could play a key role in Europe's net-zero future, providing solutions for transportation, heating, industrial processes, and energy storage.
As a key driver of the energy transition, hydrogen has the capacity to curb the greenhouse gas (GhG) emissions of hard-to-abate sectors like heavy transportation and certain industries—but only if the hydrogen is produced using decarbonized processes...
Two of the major challenges around fuel cell systems are making them more compact and reducing heat loss. The CEA's SmartFuelCell concept features a DC-DC power converter integrated directly into the fuel-cell stack's bipolar plate—parts of the mechanical system and cooling circuit are shared.
€6 million in investment
700 sq. m facility plus a 120 sq. m outdoor testing area
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CEA is a French government-funded technological research organisation in four main areas: low-carbon energies, defense and security, information technologies and health technologies. A prominent player in the European Research Area, it is involved in setting up collaborative projects with many partners around the world.