期刊
NEW JOURNAL OF CHEMISTRY
卷 47, 期 19, 页码 9440-9450出版社
ROYAL SOC CHEMISTRY
DOI: 10.1039/d3nj00348e
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Bio-oil requires a stabilization stage before its upgrading, and the hydrogenation of the water fraction can effectively reduce acidity and improve stability. In this study, PdFe/ZrO2 catalyst showed the best performance in reducing acidity and improving stability of bio-oil.
Bio-oil has high potential for fuel and chemical production by hydroprocessing, but its high acidity and oxygen level require a stabilization stage before its upgrading. The hydrogenation of the water fraction of bio-oil (WBO) was studied in the presence of mono-and bimetallic catalysts (Cu, Fe, Pd, PdCu and PdFe) on a zirconia support at 50 bar H-2 at 100 degrees C. 96% of C present in the liquid phase was retained after a reaction time of 240 minutes using the PdFe bi-metallic catalyst without a decrease in catalytic activity. Fe/ZrO2 and FePd/ZrO2 were able to reduce WBO acids (-45%) and levoglucosan (-50%) and maintain their activity for the whole 360 min, while the Pd, Cu and PdCu based catalysts deactivated relatively fast. PdFe/ZrO2 was the catalyst that produced more cyclohexanes (after 240 min), suggesting that Fe promoted by Pd is active for the hydrogenation of CQC bonds, leading to the saturation of aromatic rings at low temperature. The LTMP hydrogenation activity of PdFe/ZrO2 can be linked to the good dispersion of Fe and Pd nanoparticles of a few nm size and Pd-Fe-ZrO2 synergistic activity. The results suggest that particularly PdFe on ZrO2 is an attractive catalyst for the stabilization of WBO at low temperatures.
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