Effects of electrolyte pattern on mechanical and electrochemical properties of solid oxide fuel cells

Date

2012-09-01

Author

TİMURKUTLUK, BORA
Celik, Selahattin
Toros, Serkan
Timurkutluk, Cigdem
Mat, Mahmut D.
Kaplan, Yuksel

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In order to enhance the electrochemical performance and reduce the operation temperature of a conventional electrolyte supported solid oxide fuel cell (SOFC), a three layered electrolyte with various geometry is designed and fabricated. Novel three layered electrolytes comprise a dense and thin scandia alumina stabilized zirconia (ScAlSZ) electrolyte layer sandwiched between two hallow ScAlSZ electrolyte layers each having the same thickness as the support but machined into a filter like architecture in the active region with circular, rectangular and triangular cut off patterns. The percent of thin electrolyte layer in the active region is kept constant as 30% for all designs in order to investigate the effect of pattern geometry on the mechanical properties and the performance of the electrolytes. Single cells based on novel electrolytes are manufactured and electrochemical properties are evaluated. A standard electrolyte and electrolyte supported cell are also fabricated as a base case for comparison. Although the electrolyte having triangular patterns has the highest peak power at all operation temperatures considered, it exhibits the lowest flexural strength. (c) 2012 Elsevier Ltd and Techna Group S.r.l. All rights reserved.

Subject Keywords

Solid oxide fuel cell, Scandia alumina stabilized zirconia, Novel electrolyte design, Bending strength

URI

https://hdl.handle.net/11511/68256

Journal

CERAMICS INTERNATIONAL

DOI

https://doi.org/10.1016/j.ceramint.2012.04.008

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Citation Formats

B. TİMURKUTLUK, S. Celik, S. Toros, C. Timurkutluk, M. D. Mat, and Y. Kaplan, “Effects of electrolyte pattern on mechanical and electrochemical properties of solid oxide fuel cells,” CERAMICS INTERNATIONAL, pp. 5651–5659, 2012, Accessed: 00, 2020. [Online]. Available: https://hdl.handle.net/11511/68256.