Conversion of agricultural waste into stable biocrude using spinel oxide catalysts

[Display omitted] •Spinel oxides –was used for catalytic pyrolysis of agricultural waste.•MgB2O4 where B = Fe, Al, Cr, Ga, La, Y, In was synthesised to produce stable biocrude.•MgCr2O4 catalysts improves deoxygenation rate, increases the yield of aromatics and provides access to valuable reaction pr...

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Bibliographic Details
Published in:Journal of hazardous materials 2021-01, Vol.402, p.123539-123539, Article 123539
Main Authors: Atanda, Luqman, Fraga, Gabriel Luiz Lopes, Ahmed, Mohamed H.M., Alothman, Zeid A., Na, Jongbeom, Batalha, Nuno, Aslam, Waqas, Konarova, Muxina
Format: Article
Language:English
Subjects:
Agricultural waste
Aluminum Oxide
Biofuels
Biomass
Catalysis
Deoxygenation
Magnesium Oxide
Oxides
Pyrolysis
Spinel oxides
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Summary:[Display omitted] •Spinel oxides –was used for catalytic pyrolysis of agricultural waste.•MgB2O4 where B = Fe, Al, Cr, Ga, La, Y, In was synthesised to produce stable biocrude.•MgCr2O4 catalysts improves deoxygenation rate, increases the yield of aromatics and provides access to valuable reaction products. Biomass, the feedstock for biocrude and ultimately renewable diesel is a low energy density feedstock. The transport of this feedstock over long distance has been proven to be a major burden on the commercialisation of biorefining. Therefore, it has been generally accepted that biomass should be upgraded to biocrude (a relatively high energy density liquid) in close proximity to the biomass sources. The biocrude liquid would then be transported to a biorefinery. Biocrude contains large amounts of oxygen (generally up to 38 wt%) that is removed from the crude in the refining process. In this study, we have synthesised a range of spinel oxide based catalysts to remove oxygen from the biocrude during the catalytic fast pyrolysis. The activity of spinel oxide (MgB2O4 where B = Fe, Al, Cr, Ga, La, Y, In) catalysts were screened for the pyrolysis reaction. While all the tested spinel oxides deoxygenated the pyrolysis vapour, MgCr2O4 was found to be effective in terms of oxygen removal efficiency relative to the quantity of bio oil produced.
ISSN:0304-3894
1873-3336
DOI:10.1016/j.jhazmat.2020.123539