Journal
CATALYSTS
Volume 11, Issue 1, Pages -Publisher
MDPI
DOI: 10.3390/catal11010133
Keywords
acetic acid; reforming; hydrogen; cobalt; ceria
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This study found that CeO2 supported catalysts exhibit better performance in acetic acid steam reforming, but lead to more coke deposition and acetone generation, while chromium addition helps enhance catalytic activity and reduce coke deposition.
This work focuses on the support effect of the performances of Co based catalysts for acetic acid steam reforming. SBA-15, a well ordered hexagonal mesoporous silica structure, and CeO2 have been selected as the supports, with the impact of chromium addition also being investigated. Better acetic acid steam reforming performances have been recorded for CeO2 compared to SBA-15 supported catalysts and, in particular, the 7Co/CeO2 catalyst showed the highest values of acetic acid conversions with enhanced H-2 yields below 480 degrees C, in comparison to the other investigated catalytic formulations. In addition, more pronounced coke depositions and acetone concentrations have been obtained with CeO2 supported catalysts, due to the tendency of ceria to catalyse the ketonization reaction. Chromium addition to Co/SBA-15 catalysts led to an enhancement in the activity towards acetic acid steam reforming, while on CeO2 supported catalysts no improvement in the catalysts' activity was observed. However, on both SBA-15 and CeO2 supported catalysts, Cr addition reduced the amount of coke deposited on the catalysts surface.
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