Catalytic transformations of acids, aldehydes, and phenols in bio-oil to alcohols and esters

•A method to convert acids, aldehydes, and phenols to alcohols and esters was proposed.•C-supported catalysts gave complete conversion of phenol and n-butanal.•Esterification was mainly catalyzed by weak and medium acid sites.•Yields of desired products (alcohols and esters) as high as 95% could be...

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Bibliographic Details
Published in:Fuel (Guildford) 2014-11, Vol.135, p.55-62
Main Authors: Chen, Wen, Luo, Zhongyang, Yu, Chunjiang, Li, Guoxiang, Yang, Yi, Zhang, Jixiang, Lu, Kongyu
Format: Article
Language:English
Subjects:
Acids
Aldehydes
Applied sciences
Bio-oil upgrading
Energy
Energy. Thermal use of fuels
Exact sciences and technology
Fuels
Hydrogenation–esterification
Phenols
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Summary:•A method to convert acids, aldehydes, and phenols to alcohols and esters was proposed.•C-supported catalysts gave complete conversion of phenol and n-butanal.•Esterification was mainly catalyzed by weak and medium acid sites.•Yields of desired products (alcohols and esters) as high as 95% could be achieved in OHE. Acids, aldehydes, and phenols have negative effects on the properties of bio-oil. In this paper, n-butanal, acetic acid, and phenol were selected as model compounds of aldehydes, acids, and phenols, respectively. To convert these compounds into stable and combustible oxygenated organics (alcohols and esters), separate hydrogenation–esterification (SHE) of n-butanal, phenol, and acetic acid was carried out. 100% conversions of n-butanal and phenol were achieved over C-supported catalysts (Ru/C, Pt/C, and Pd/C) with high selectivity to desired products. With the catalysis of SO42−/ZrO2/SBA-15, the yields of butyl acetate and cyclohexyl acetate were 75.89% and 30.97% respectively, which were higher than those over HZSM-5. Based on the results, one-pot hydrogenation–esterification (OHE) of n-butanal, phenol and acetic acid was tested. In OHE, yields of desired products (alcohols and esters) reached 95%, which were higher than those in SHE. Hydrogenation–esterification is a promising method to convert aldehydes, phenols, and acids in bio-oil to stable and combustible organics.
ISSN:0016-2361
1873-7153
DOI:10.1016/j.fuel.2014.06.003