Etherification of hydroxymethylfurfural with ethanol on mesoporous silica catalysts of regulated acidity to obtain ethoxymethylfurfural, a bio-additive for diesel

5-(hydroxymethyl)furfural (HMF) obtained from biomass can be etherified with ethanol to 5-(ethoxymethyl)furfural (EMF), a promissory bio-additive for diesel, employing solids with suitable acidity and porous structure as catalysts. The performance of MCM-41 and SBA-15, with different amount of sulfo...

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Bibliographic Details
Published in:Microporous and mesoporous materials 2022-09, Vol.343, p.112145, Article 112145
Main Authors: Tonutti, L.G., Dalla Costa, B.O., Mendow, G., Pestana, G.L., Veizaga, N.S., Grau, J.M.
Format: Article
Language:English
Subjects:
Biomass
EMF
Ethanol
HMF etherification
Mesoporous catalysts
Sulfonation
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Summary:5-(hydroxymethyl)furfural (HMF) obtained from biomass can be etherified with ethanol to 5-(ethoxymethyl)furfural (EMF), a promissory bio-additive for diesel, employing solids with suitable acidity and porous structure as catalysts. The performance of MCM-41 and SBA-15, with different amount of sulfonic acid sites (-SO3H), was compared at 140 °C in a batch stirred reactor. 10 g L−1 of SBA-15 with a 0.054 S/Si molar ratio gave HMF conversion of 94.6% and EMF yield of 76.5% after 3 h of reaction from a 15 g L−1 of HMF/ethanol. The catalyst preserved its activity over 4 reaction cycles; reaching HMF conversion of 78.0% and EMF yield of 68.7%. From 90 g L−1 of HMF/ethanol and 20 g L−1 of catalyst achieve a HMF conversion of 94.3% and an EMF yield of 89.3% in 1.5 h of reaction (rate of 69.1 g L−1 h−1). A scale-up of production to a continuous reactor could be considered. [Display omitted] •Sulfonated SBA-15 is a material suitable for obtaining EMF by HMF etherification.•Effect of ethanol and acidity of solids on the selectivity to EMF are studied.•Conversions greater than 94% have been achieved in 90 min reaction.•A high production of EMF was reached, reasonable to evaluate a scaling up process.
ISSN:1387-1811
1873-3093
DOI:10.1016/j.micromeso.2022.112145