4.7 Article

Production of renewable aromatics from jatropha oil over multifunctional ZnCo/ZSM-5 catalysts

期刊

RENEWABLE ENERGY
卷 179, 期 -, 页码 2124-2135

出版社

PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.renene.2021.08.011

关键词

Surface acidity; Supported catalyst; Aromatisation; Jatropha oil; Bio-aromatics

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The study investigated the transformation of jatropha oil into aromatics using bimetallic ZSM-5 catalyst in a continuous downflow reactor. The addition of Ce as a promoter was found to enhance dehydrodeoxygenation reaction and aromatic selectivity. The optimized catalyst 10Zn5Co5Ce/Z showed high conversion and aromatic selectivity with negligible coke deposition.
The transformation of jatropha oil into aromatics using bimetallic ZSM-5 catalyst was investigated in a continuous downflow reactor. The effect of change in surface acidity was observed closely concerning the formation of C-6-C-8 aromatics; a balance Lewis and Bronsted acidic sites showed a strong correlation with light aromatics. Ce as a promoter modify the surface acidity, which enhanced the dehydrodeoxygenation reaction and improved the aromatic selectivity. Hence, Ce-promoted ZnCo/Z catalysts showed better performance compared to La-promoted ZnCo/Z. The 10Zn5Co5Ce/Z catalyst showed 87.6% oil conversion, with 81.9% total aromatics. The selectivity toward C-6-C-8 aromatics found to be 71.8%, with the presence of 35.3% xylenes and ethylbenzene. The Normalized XANES spectra suggest that the Co resides in the tetrahedrally coordinated environment in the ZnCo2O4 catalyst and such intensity of the pre-edge feature evidence for incorporating Co into the material framework. The optimised catalyst, i.e.,10Zn5Co5Ce/Z shows negligible coke deposition, and it was calculated to be 1.33 x 10(-3) (g(coke)/g(cat) h); further, the catalyst was regenerated for three consecutive cycles. (c) 2021 Elsevier Ltd. All rights reserved.

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