AUTHOR=Itagaki Yoshiteru , Yamaguchi Syuhei , Yahiro Hidenori TITLE=Anodic Performance of BaO-Added Ni/SDC for Solid Oxide Fuel Cell Fed With Dry CH4 JOURNAL=Frontiers in Energy Research VOLUME=9 YEAR=2021 URL=https://www.frontiersin.org/journals/energy-research/articles/10.3389/fenrg.2021.652239 DOI=10.3389/fenrg.2021.652239 ISSN=2296-598X ABSTRACT=

SOFCs fed with dry H₂ and CH₄ fuels were examined using 20 wt% Ni/SDC and 0.2 wt% BaO-added 20 wt% Ni/SDC [Ni(BaO)/SDC] anodes. The i–v characteristics of the cells in H₂ and CH₄ resulted in a higher output produced by CH₄ fuel compared to that produced by H₂ fuel in both anodes. In both fuels, better anode characteristics were obtained for Ni(BaO)/SDC. Consequently, the anodic performance was in the order of Ni(BaO)/SDC in CH₄ > Ni/SDC in CH₄ > Ni(BaO)/SDC in H₂ > Ni/SDC in H₂. A significant carbon deposition was observed in the Ni/SDC anode in CH₄, but the carbon deposition observed in Ni(BaO)/SDC was less. From the DC electrical resistance measurement of the anode films, a remarkable decrease in resistance was observed in Ni/SDC due to the carbon deposition after CH₄ exposure. The resistance of Ni(BaO)/SDC was higher than that of Ni/SDC and did not change even after CH₄ exposure because of the less carbon deposit. The high dispersibility of Ni particles was confirmed in both anodes and was particularly remarkable in Ni(BaO)/SDC. The highest anodic performance in Ni(BaO)/SDC was attributed to the high Ni dispersibility which might promote CH₄ decomposition by producing less carbon deposit. It was speculated that the higher cell output in CH₄ than that in H₂ is due to the locally high concentration of H₂ and/or CO gas on the anode surface by the promotion of CH₄ decomposition.