This title appears in the Scientific Report :
2014
Advances beyond traditional SOFC cell designs
Advances beyond traditional SOFC cell designs
Research and development of Solid Oxide Fuel Cell (SOFC) technology has been carried out at the Jülich research center for more than 20 years. A standard cell design based on a porous nickel cermet has been established and tested with stationary conditions, for which a power density of 1.25 W/cm2 at...
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Personal Name(s): | Röhrens, Daniel (Corresponding Author) |
---|---|
Menzler, Norbert H. / Feng, Han / Mücke, Robert / Sebold, Doris / Haydn, Markus / Schafbauer, Wolfgang / Buchkremer, Hans Peter | |
Contributing Institute: |
Werkstoffsynthese und Herstellungsverfahren; IEK-1 |
Published in: |
Proceedings of the 20th World Hydrogen Energy Conference 2014 |
Imprint: |
2014
|
Physical Description: |
285-291 |
Conference: | 20th World Hydrogen Energy Conference 2014, Gwangju (South Korea), 2014-06-16 - 2014-06-20 |
Document Type: |
Contribution to a book Contribution to a conference proceedings |
Research Program: |
Solid Oxide Fuel Cell Fuel Cells |
Publikationsportal JuSER |
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520 | |a Research and development of Solid Oxide Fuel Cell (SOFC) technology has been carried out at the Jülich research center for more than 20 years. A standard cell design based on a porous nickel cermet has been established and tested with stationary conditions, for which a power density of 1.25 W/cm2 at 800°C in H2 was obtained. In order to broaden the field of possible applications, new cell designs have been developed. Among those are metal-supported SOFCs (MSC), which promise increased robustness against thermal-, mechanical and chemical stresses, as well as cheaper production costs. While the MSC development may find an application in mobile devices another cell design concept aims at much lower operating temperatures. For this cell type a very thin zirconia membrane is deposited on top of a standard anode support via a multi-step sol/gel-route. With this setup a reduction of the operating temperature to 600°C with a power output of 1.25 W/cm2 could be demonstrated. | ||
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