Journal
JOURNAL OF ENERGY CHEMISTRY
Volume 87, Issue -, Pages 359-367Publisher
ELSEVIER
DOI: 10.1016/j.jechem.2023.08.035
Keywords
Solid oxide fuel cell; Anode; Carbon deposition; Triple-phase boundary; 3D reconstruction
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In this study, two Ni/YSZ anodes with different volume ratios of Ni and YSZ were operated in dry methane under open circuit and polarized conditions. The reconstructed microstructures showed that the Ni surface near the active TPB did not have carbon deposition, while the remaining Ni surface away from the TPB exhibited severe carbon deposition. The results indicate a complex interplay between electrochemical steam generation and methane cracking on Ni surface.
In the present study, two Ni/YSZ anodes with different volume ratios of Ni and YSZ, 30: 70 and 45: 55 vol %, are operated in dry methane under open circuit and polarized conditions. Three-dimensional (3D) Ni/ YSZ microstructures after carbon deposition are reconstructed by the focused ion beam-scanning electron microscopy (FIB-SEM) with the help of machine learning segmentation. From the reconstructed mircostructures, volume fraction, connectivity, three phase boundary (TPB) density, and tortuosity are quantified. In addition, local carbon microstructures are quantitatively reconstructed, and the effect of polarization on carbon morphology is investigated. It is demonstrated that Ni surface in the vicinity of active TPB near the electrolyte is free from carbon formation, while remaining Ni surface at some distances from TPB exhibits severe carbon deposition. In average, total amount of carbon deposition is larger near the electrolyte. These observations imply complex interplay between the electrochemical steam generation and methane cracking on Ni surface which take place very locally near the active TPB.(c) 2023 Science Press and Dalian Institute of Chemical Physics, Chinese Academy of Sciences. Published by ELSEVIER B.V. and Science Press. All rights reserved.
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