Optimization of ESC Performance for Co-Electrolysis Operation

Production of synthetic hydrocarbon fuels from co-electrolysis of steam/CO2 mixtures using renewable energy has been already presented as a promising solution to diminish environmental problems. The possibility to recycle CO2 into chemicals and value-added fuels helps to reduce the accumulation of a...

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Bibliographic Details
Published in:ECS transactions 2017-05, Vol.78 (1), p.3025-3037
Main Authors: Trofimenko, Nikolai, Kusnezoff, Michails, Michaelis, Alexander
Format: Article
Language:English
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Summary:Production of synthetic hydrocarbon fuels from co-electrolysis of steam/CO2 mixtures using renewable energy has been already presented as a promising solution to diminish environmental problems. The possibility to recycle CO2 into chemicals and value-added fuels helps to reduce the accumulation of atmospheric CO2 and realize the carbon neutral cycling of fuels. While the co-electrolysis is more complicated than steam electrolysis, the electrochemical performance of electrolyte supported cell with LSMM'/ScSZ and Ni/GDC electrodes were investigated over a wide range of operating conditions (SOEC as well as SOFC), varying the ratio of H2O:H2 and CO2:CO, the operating temperature (750-850°C) and current. The modified G3´´ cell with optimized fuel and air electrodes was successfully tested for ~2400 hours at 803°C under co-electrolysis conditions (H2/H2O/CO2/CO mixture as fuel, j = -400 mA/cm2). The calculated linear power degradation rate over all durability test (~2400 h) is about 0.4%/1,000 h.
ISSN:1938-5862
1938-6737
1938-6737
1938-5862
DOI:10.1149/07801.3025ecst