Continuous one-pot hydrodeoxygenation of sorbitol to fuel components over Pd/WOx–ZrO2 catalysts

•Complete sorbitol HDO into fuel components over Pd/WOx–ZrO2 catalysts•The yield of С5+ hydrocarbons after 1 h of the reaction is up to about 81 mol%•The higher Pd dispersion leads to a higher yield of isoalkanes and cycloalkanes•The higher acidity of catalysts enhances yield of desired products wit...

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Bibliographic Details
Published in:Molecular catalysis 2021-08, Vol.513, Article 111730
Main Authors: Chumachenko, Yu.A., Shkurenok, V.A., Smolikov, M.D., Gulyaeva, T.I., Buluchevskiy, E.A., Prosvirin, I.P., Simakova, I.L.
Format: Article
Language:English
Subjects:
Biofuels
Hydrodeoxygenation
Palladium
Sorbitol
Tungstated zirconia
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Summary:•Complete sorbitol HDO into fuel components over Pd/WOx–ZrO2 catalysts•The yield of С5+ hydrocarbons after 1 h of the reaction is up to about 81 mol%•The higher Pd dispersion leads to a higher yield of isoalkanes and cycloalkanes•The higher acidity of catalysts enhances yield of desired products with RON>70•The yield of isoalkanes and cycloalkanes with RON>70 over Pd/WOx–ZrO2 reaches 34 mol% [Display omitted] The one-pot hydrodeoxygenation (HDO) of an aqueous sorbitol solution (20 wt%) was studied over Pd (0.5 wt%)/WOx–ZrO2 catalyst at the variable reaction conditions in a continuous mode focusing on the effect of the calcination temperature of tungstated zirconia (1073 and 1223 К), the Pd containing catalyst reduction temperature, as well as on the correlation between their physical-chemical properties and fuel hydrocarbons yield. It was found that sorbitol HDO under reaction conditions such as temperatures 573 and 613 K, hydrogen pressure 4.0 MPa, and WHSV of 1.0 h–1 resulted in the highest yield of C5+ hydrocarbons 76–81 mol% mainly consisting of isoalkanes, cycloalkanes, n–alkanes and arenes. The maximum yield of the targeted isoalkanes and cycloalkanes with RON>70 (34 mol%) along with the minimum amount of undesirable C6–C8 arenes (2 mol%) were obtained at 613 K. Under these conditions the Pd catalyst reduced at 613 K using tungstated zirconia calcined at 1073 K as a support afforded formation of Pd/WOx–ZrO2 with the optimal microtexture, acidity and dispersion of catalytically active phase. Physicochemical properties of the catalyst and support were studied by XRD, low temperature N2 physical adsorption, NH3–TPD, H2–TPR, CO chemisorption, XPS, and CO2–TPD.
ISSN:2468-8231
2468-8231
DOI:10.1016/j.mcat.2021.111730