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Catalytic pyrolysis of fatty acids and oils into liquid biofuels and chemicals over supported Ni catalysts on biomass-derived carbon

Bin Chen, Zining Zhou, Yuze Li, Kok Bing Tan, Youting Wang, Xiaoping Rao, Jiale Huang, Xiaodong Zhang, Qingbiao Li, Guowu Zhan

2023Applied Catalysis B: Environmental55 citationsDOIOpen Access PDF

Abstract

Herein, biomass-derived activated carbon (bio-AC) was synthesized using rice husk as a biotemplate and natural carbon source. After immobilization of Ni, the supported Ni/bio-AC showed excellent catalytic activity in the pyrolysis of fatty acids to paraffin-based biodiesel in H 2 -free and solvent-free conditions, corresponding to the conversion of 99.6% and a total alkane yield of 95.1%, including 88.9% heptadecane. Based on comprehensive characterizations, the calculated turnover frequency of Ni/bio-AC was 3.9 times that of conventional Ni/AC. Significantly enhanced olefin selectivity was further obtained by N-doping of Ni/bio-AC, which was attributed to the inhibition of -COO* dissociation by the Ni-N sites. The possible catalytic reaction pathways from stearic acid to heptadecane via aliphatic alcohol as a reaction intermediate were investigated. Besides, efficient conversions of saturated and unsaturated plant oils were also achieved over Ni/bio-NAC catalysts in Py-GC/MS through pulsed catalytic pyrolysis manner, showing a promising prospect for sustainable biofuels and chemical production.

Topics & Concepts

HeptadecaneCatalysisPyrolysisChemistryBiofuelBiomass (ecology)Carbon fibersOrganic chemistryStearic acidActivated carbonAlkaneChemical engineeringMaterials scienceWaste managementAdsorptionOceanographyComposite materialGeologyEngineeringComposite numberCatalysis and Hydrodesulfurization StudiesBiodiesel Production and ApplicationsCatalysis for Biomass Conversion
Catalytic pyrolysis of fatty acids and oils into liquid biofuels and chemicals over supported Ni catalysts on biomass-derived carbon | Litcius