One-pot production of a liquid biofuel candidate—Ethyl levulinate from glucose and furfural residues using a combination of extremely low sulfuric acid and zeolite USY

[Display omitted] •Combination of extremely low sulfuric acid and USY is efficient for EL production.•Higher EL yield of 51.47% from glucose can be obtained in the mixed acid system.•Higher EL yield of 18.68% from FRs can be obtained in the mixed acid system. Ethyl levulinate has been considered as...

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Bibliographic Details
Published in:Fuel (Guildford) 2015-01, Vol.140, p.365-370
Main Authors: Chang, Chun, Xu, Guizhuan, Zhu, Weina, Bai, Jing, Fang, Shuqi
Format: Article
Language:English
Subjects:
Ethyl levulinate
Furfural residues
Glucose
Optimization
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Summary:[Display omitted] •Combination of extremely low sulfuric acid and USY is efficient for EL production.•Higher EL yield of 51.47% from glucose can be obtained in the mixed acid system.•Higher EL yield of 18.68% from FRs can be obtained in the mixed acid system. Ethyl levulinate has been considered as a potential liquid biofuel candidate for the future. The conversion of glucose to ethyl levulinate in ethanol medium was firstly investigated in this study. Experimental results showed that the combination of extremely low sulfuric acid and zeolite USY can be used as an effective catalytic system for one-pot EL production from glucose. The ethyl levulinate yield of 51.47% from glucose can be obtained at 180°C and 120min in the mixed acid system comprising of 0.1% sulfuric acid and 2.0% USY. Furfural residues were further taken as substrates for ethyl levulinate production in the mixed acid system. Artificial neural network coupled with genetic algorithm was employed to optimize the process. The optimum conditions were reaction temperature 219°C, USY loading 2.3%, mass ratio of liquid to solid 40 and reaction time 107min. Under the optimum conditions, higher ethyl levulinate yield of 18.68% was obtained, representing a theoretical yield of 51.22%.
ISSN:0016-2361
1873-7153
DOI:10.1016/j.fuel.2014.09.102