Horizon 2020 (2014 - 2020)

Next-generation Solid Oxide Fuel Cell stack and hot box solution for small stationary applications - OxiGEN

Last update: Jun 29, 2020 Last update: Jun 29, 2020

Details

Locations:France, Germany, Italy, Norway
Start Date:Jan 1, 2018
End Date:Dec 31, 2020
Contract value: EUR 2,996,873
Sectors:Energy
Energy
Categories:Grants
Date posted:Jun 29, 2020

Associated funding

Associated experts

Description

Programme(s): H2020-EU.3.3.8.1. - Increase the electrical eficiency and the durability of the different fuel cells used for power production to levels which can compete with conventional technologies, while reducing costs
Topic(s): FCH-02-9-2017 - Development of next-generation SOFC stack for small stationary applications
Call for proposal: H2020-JTI-FCH-2017-1
Funding Scheme: FCH2-RIA - Research and Innovation action
Grant agreement ID: 779537

Objective:
OxiGEN aims at developing an innovative SOFC technical platform, including an all-ceramic stack design and a modular hotbox, for small stationary applications. Thanks to its higher durability and simpler design, this novel stack can ful ll the customers’ needs for long lifetime, high e ciency and low cost, in micro-CHP and other segments.
A broad pan-European consortium of seven major players (ICI Caldaie, R&D centers Fraunhofer-IKTS, EIFER, CEA Liten, SINTEF, utility ENGIE, global ceramist and project coordinator Saint-Gobain) will partner to integrate the all-ceramic stack into an original hot box solution. Functional speci cations will be set by a qualified Advisory Panel, gathering European system integrators and gas utilities in addition to the JRC and other consortium members. The solution’s design will be modular and will address the specifications and standards suggested by the Advisory Panel, in order to provide a technical platform serving several market segments while fostering open competition between industry players. This new platform is of European ownership and leverages a European supply chain, thus supporting the emergence of a European fuel cell industry fully independent from Asian fuel cell technology. The projects’ technical objectives address all the call challenges:
• Define, with input from the Advisory Panel, the most suitable hotbox functional specifications for residential and commercial segments
• Develop a higher power stack to reach the call’s technical targets
• Develop a modular hot box concept and build a 1kWe prototype (in practice, 500We to 1500We depending on preferred micro-CHP power specification)
• Assess the performance of the prototype in system-like conditions
• Study the cost-of-ownership of the solution
• Propose material-based solutions for future long-term improvements
• Ensure the manufacturability and compatibility of the new hotbox with the EU supply chain
• Disseminate results and build the exploitation plan

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