Experimental and model analysis of the co-oxidative behavior of syngas feed in an Intermediate Temperature Solid Oxide Fuel Cell

By means of model analysis, we show that, in the presence of syngas, the electro-oxidation of H2 and that of CO occur in parallel and contemporarily on Samaria-doped Ceria (Sm0.2Ce0.8O1.9, SDC) Intermediate Temperature Solid Oxide Fuel Cells (IT-SOFCs). The activation of a co-oxidative route is a mo...

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Published inJournal of power sources Vol. 306; pp. 467 - 480
Main Authors Donazzi, A., Rahmanipour, M., Maestri, M., Groppi, G., Bardini, L., Pappacena, A., Boaro, M.
Format Journal Article
LanguageEnglish
Published Elsevier B.V 29.02.2016
Subjects
Activation
Carbon monoxide
Ceria
Co-oxidation
Computer simulation
EIS
Electrolytic cells
IT-SOFC
Kinetics
Mathematical models
Polarization
Solid oxide fuel cells
Syngas
Synthetic fuels
Co-oxidation
Kinetics
IT-SOFC
EIS
Ceria
Syngas
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Summary:By means of model analysis, we show that, in the presence of syngas, the electro-oxidation of H2 and that of CO occur in parallel and contemporarily on Samaria-doped Ceria (Sm0.2Ce0.8O1.9, SDC) Intermediate Temperature Solid Oxide Fuel Cells (IT-SOFCs). The activation of a co-oxidative route is a most distinguishing feature of Ce-based cells, compared to traditional SOFCs. SDC electrolyte supported IT-SOFCs with Cu–Pd-CZ80 composite anodes and LSCF cathodes were tested under a wide range of operating conditions. Polarization and EIS measurements were collected at 600 °C and 650 °C with syngas mixtures (2.3–0.4H2/CO ratio), H2/N2 mixtures (from 97 to 30% H2 v/v) and CO/CO2 mixtures (from 97 to 50% CO v/v). A 1D, dynamic and heterogeneous model of the cell was applied to analyze the polarization and the EIS curves. The kinetics of the reactions of H2 electro-oxidation, CO electro-oxidation and O2 reduction were individually investigated and global power law rates were derived. The syngas experiments were simulated on a fully predictive basis and no parameter adjustment, confirming that the polarization behavior could be best reproduced exclusively by assuming the presence of the co-oxidative route. The IT-SOFCs were also exposed to biogas mixtures, revealing that the dry-reforming reaction was active. [Display omitted] •Ni-free, Ce-based IT-SOFCs are tested with syngas and biogas at 600 and 650 °C.•The electro-oxidations of CO and of H2 are active in parallel and contemporarily.•A 1D, dynamic, heterogeneous and physically-sound MEA model of the cell is applied.•The polarization curves and the EIS spectra are simulated based with the model.•Power law rate equations are derived for the electro-oxidation of H2 and of CO.
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ISSN:0378-7753
1873-2755
DOI:10.1016/j.jpowsour.2015.12.038