project . 2021 - 2023 . On going


Microtubular solid oxide fuel cells Finally In MicroScale
Open Access mandate for Publications
European Commission
Funder: European CommissionProject code: 101033008 Call for proposal: H2020-MSCA-IF-2020
Funded under: H2020 | MSCA-IF-EF-RI Overall Budget: 154,193 EURFunder Contribution: 154,193 EUR
Status: On going
01 Aug 2021 (Started) 31 Jul 2023 (Ending)
Open Access mandate
Research data: No

A breakthrough in economically viable efficient energy conversion has been long waited, with fuel cell technology being a promising candidate. Recently, tubular Solid Oxide Fuel Cells (SOFCs) have received increased attention due to possibility to shorten start-up times, reduce material losses and lower costs of fuel cells. In order to reach sufficient volumetric power density, decrease working temperature and reduce costs, the diameter of the SOFC tubes has to be reduced at least an order of magnitude, compared to state of the art (at or above 1 mm). In the recent years, the hosting group of the project has demonstrated fabrication of yttria-stabilized zirconia (YSZ) microtubes with diameters <100 µm and tested their viability for use as an electrolyte in microtubular SOFCs. The FIMS project is focused on innovative development of controllable YSZ microtube fabrication methods and subsequent use of the microtubes in construction of a SOFC stack to prove commercial potential. A method for fabrication of optical quality fluorescent microtubes with controlled dimensions (diameter <100 µm, wall thickness 5-10 µm) and facile structural defect detection with optical techniques will be realized. Porous electrode deposition on the microtubes will be refined and a microtubular electrolyte supported pilot SOFC stack will be constructed and characterized. The target of FIMS is to promote transfer of knowledge through training and career development of the Fellow in the multidisciplinary field of SOFC technology, in order to re-enforce professional maturity and independence of the Fellow. Two secondments – academic and industrial – further improve the training and collaboration network of a young scientist. The project will have positive impact on the Fellow's career progress towards becoming a leading researcher, and supports enhancement of environmental protection and sustainable resource use.

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