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Archives of Thermodynamics

The Journal of Committee on Thermodynamics and Combustion of Polish Academy of Sciences

4 Issues per year


CiteScore 2016: 0.54

SCImago Journal Rank (SJR) 2016: 0.319
Source Normalized Impact per Paper (SNIP) 2016: 0.598

Open Access
Online
ISSN
2083-6023
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Volume 38, Issue 4

Preliminary Electrochemical Characterization of Anode Supported Solid Oxide Cell (AS-SOC) Produced in the Institute of Power Engineering Operated in Electrolysis Mode (SOEC)

Jakub Kupecki
  • Corresponding author
  • Department of High Temperature Electrochemical Processes, Institute of Power Engineering, Augustowka 36, 02-981 Warsaw, Poland
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/ Konrad Motyliński
  • Department of High Temperature Electrochemical Processes, Institute of Power Engineering, Augustowka 36, 02-981 Warsaw, Poland
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/ Marek Skrzypkiewicz
  • Department of High Temperature Electrochemical Processes, Institute of Power Engineering, Augustowka 36, 02-981 Warsaw, Poland
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/ Michał Wierzbicki
  • Department of High Temperature Electrochemical Processes, Institute of Power Engineering, Augustowka 36, 02-981 Warsaw, Poland
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/ Yevgeniy Naumovich
  • Department of High Temperature Electrochemical Processes, Institute of Power Engineering, Augustowka 36, 02-981 Warsaw, Poland
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Published Online: 2017-12-09 | DOI: https://doi.org/10.1515/aoter-2017-0024

Abstract

The article discusses the operation of solid oxide electrochemical cells (SOC) developed in the Institute of Power Engineering as prospective key components of power-to-gas systems. The fundamentals of the solid oxide cells operated as fuel cells (SOFC - solid oxide fuel cells) and electrolysers (SOEC - solid oxide fuel cells) are given. The experimental technique used for electrochemical characterization of cells is presented. The results obtained for planar cell with anodic support are given and discussed. Based on the results, the applicability of the cells in power-to-gas systems (P2G) is evaluated.

Keywords: SOFC; SOEC; Electrolysis; Power-to-gas

References

  • [1] Milewski J., Wołowicz M., Lewandowski J.: Optimization of the working conditions of a laboratory size (100 cm2) molten carbonate fuel cel l. ECS Transactions 51(2013), 1, 37-45.Google Scholar

  • [2] Schwarze K., Posdziech O., Kroop S. et al.: Green industrial hydrogen via reversible high-temperature electrolysis. ECS Transactions 78(2017), 1, 2943-2952.Google Scholar

  • [3] Pozzo M., Lanzini A., Santarelli M.: Enhanced biomass-to-liquid (BTL) conversion process through high temperature co-electrolysis in a solid oxide electrolysis cel l (SOEC). Fuel 145(2015), 39-49.Google Scholar

  • [4] Virkar A.V.: Mechanism of oxygen electrode delamination in solid oxide electrolyzer cel ls. Int. J. Hydrogen Energ. 35(2010), 18, 9527-9543.CrossrefGoogle Scholar

  • [5] Sun X., Chen M., Jensen S.H., et al.: Thermodynamic analysis of synthetic hydrocarbon fuel production in pressurized solid oxide electrolysis cel ls. Int. J. Hydrogen Energ. 37(2012), 22, 17101-17110.Google Scholar

  • [6] Graves C., Ebbesen S.D., Jensen S.H., et al.: Eliminating degradation in solid oxide electrochemical cel ls by reversible operation. Nat. Mater. 14(2015), 239-244. Google Scholar

  • [7] Jae S., Gyeong K., Choi M.: Stability of LSCF electrode with GDC interlayer in YSZ-based solid oxide electrolysis cel l. Solid State Ionics 262(2014), 303-306. Google Scholar

  • [8] Kim S.J., Kim K.J., Dayaghi A.M., et al.: Polarization and stability of La2NiO4+δ in comparison with La0.6Sr0.4Co0.2Fe0.8O3-δ as air electrode of solid oxide electrolysis cel l. Int. J. Hydrogen Energ. 41(2016), 33, 14498-14506.Google Scholar

  • [9] Hansen J.B.: Solid oxide electrolysis - a key enabling technology for sustainable energy scenarios. Faraday Discuss. 182(2015), 9-48.Web of ScienceGoogle Scholar

  • [10] Milewski J.: Solid oxide electrolysis cel l co-methanation supported by molten carbonate fuel cel l - a concept. J. Power Technologies 96(2016), 1, 8-14.Google Scholar

  • [11] Bartela L., Skorek-Osikowska A., Kotowicz J.: Integration of a supercritical coal-fired heat and power plant with carbon capture instal lation and gas turbine. Rynek Energii 100(2012), 3, 56-62.Google Scholar

About the article

Received: 2017-10-04

Published Online: 2017-12-09

Published in Print: 2017-12-20


Citation Information: Archives of Thermodynamics, Volume 38, Issue 4, Pages 53–63, ISSN (Online) 2083-6023, DOI: https://doi.org/10.1515/aoter-2017-0024.

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© Polish Academy of Sciences. This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 License. BY-NC-ND 4.0

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