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Dorn, Marvin
Karlsruhe Institute of Technology
in Cooperation with on an Cooperation-Score of 37%
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article
Pressurized single cell testing of solid oxide cells
Abstract
Pressurized operation of Solid Oxide Cells (SOCs) enhances the performance in the fuel cell mode and ismandatory for coupling with gas turbines. For electrolysis, energy demand and balance of plant to pressurizehydrogen or syngas can be reduced. Today’s facilities for pressurization of SOCs rely on voluminous pressurevessels that enclose the cells/stacks. Inside such vessel, fuel- and oxidant pressures have to match the vesselpressure to avoid a deterioration of the cells/stacks. Here, a single cell is operated without a pressure vessel in ametallic cell housing sealed towards the cell by a glass-ceramic sealant. Any differential pressure is avoided by adownstream combustor, an approach that is limited to test benches. In our experiments we found that this sealingconcept can withstand pressure drops of up to 10 bar towards ambient pressure even after a full thermal cycle. Asto be expected from numerous previous studies, open-circuit voltage as well as performance increased signifi-cantly with increasing pressure. The power density increased by 20 % in air/dry H2 at 850 ◦C and 11 bara