Selective preparation of light olefins from cellulose-derived fermentation intermediates
DanFeng Lou, Rui Zhang, Yuehui Luo, Quanxin Li
Abstract
Directional synthesis of bio-based light olefins has great significance for promoting sustainable development of chemical industry. Present work proves that light olefins can be selectively prepared from the cellulose-derived acetonebutanol-ethanol. This transformation has been achieved by coupling cellulose fermentation and acetone-butanolethanol catalytic dehydration over the Ce@SAPO-34 catalyst. The active sites and reusability of the catalyst were investigated. High acetone-butanolethanol conversion (91.9%) and high olefin selectivity (86.1%) are achieved. Based on the study of the individual components in acetone-butanol-ethanol, the reaction pathways are put forward.
Topics & Concepts
AcetoneChemistryCelluloseButanolCatalysisEthanolOlefin fiberOrganic chemistrySelectivityFermentationReusabilityn-ButanolProgramming languageComputer scienceSoftwareCatalysis for Biomass ConversionBiofuel production and bioconversionEnzyme Catalysis and Immobilization