Production of value-added chemicals from bio-oil via acid catalysis coupled with liquid-liquid extraction

Sugar/sugar derivatives in bio-oil can be effectively separated from aromatics via water/chloroform extraction. Subsequent acid-treatment in methanol converts the sugars into levulinic acid/ester and the sugar derivatives into fuel additives. Further extraction with CH2Cl2/CHCl3 could efficiently se...

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Main Authors:	Hu, Xun, Mourant, Daniel, Gunawan, Richard, Wu, L., Wang, Yi, Lievens, Caroline, Li, Chun-Zhu
Format:	Journal Article
Published:	Royal Society of Chemistry 2012
Online Access:	http://hdl.handle.net/20.500.11937/6436

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author	Hu, Xun Mourant, Daniel Gunawan, Richard Wu, L. Wang, Yi Lievens, Caroline Li, Chun-Zhu
author_facet	Hu, Xun Mourant, Daniel Gunawan, Richard Wu, L. Wang, Yi Lievens, Caroline Li, Chun-Zhu
author_sort	Hu, Xun
building	Curtin Institutional Repository
collection	Online Access
description	Sugar/sugar derivatives in bio-oil can be effectively separated from aromatics via water/chloroform extraction. Subsequent acid-treatment in methanol converts the sugars into levulinic acid/ester and the sugar derivatives into fuel additives. Further extraction with CH2Cl2/CHCl3 could efficiently separate methyl levulinate and levulinic acid from other products.
first_indexed	2025-11-14T06:11:36Z
format	Journal Article
id	curtin-20.500.11937-6436
institution	Curtin University Malaysia
institution_category	Local University
last_indexed	2025-11-14T06:11:36Z
publishDate	2012
publisher	Royal Society of Chemistry
recordtype	eprints
repository_type	Digital Repository
spelling	curtin-20.500.11937-64362017-09-13T14:41:02Z Production of value-added chemicals from bio-oil via acid catalysis coupled with liquid-liquid extraction Hu, Xun Mourant, Daniel Gunawan, Richard Wu, L. Wang, Yi Lievens, Caroline Li, Chun-Zhu Sugar/sugar derivatives in bio-oil can be effectively separated from aromatics via water/chloroform extraction. Subsequent acid-treatment in methanol converts the sugars into levulinic acid/ester and the sugar derivatives into fuel additives. Further extraction with CH2Cl2/CHCl3 could efficiently separate methyl levulinate and levulinic acid from other products. 2012 Journal Article http://hdl.handle.net/20.500.11937/6436 10.1039/c2ra21597g Royal Society of Chemistry restricted
spellingShingle	Hu, Xun Mourant, Daniel Gunawan, Richard Wu, L. Wang, Yi Lievens, Caroline Li, Chun-Zhu Production of value-added chemicals from bio-oil via acid catalysis coupled with liquid-liquid extraction
title	Production of value-added chemicals from bio-oil via acid catalysis coupled with liquid-liquid extraction
title_full	Production of value-added chemicals from bio-oil via acid catalysis coupled with liquid-liquid extraction
title_fullStr	Production of value-added chemicals from bio-oil via acid catalysis coupled with liquid-liquid extraction
title_full_unstemmed	Production of value-added chemicals from bio-oil via acid catalysis coupled with liquid-liquid extraction
title_short	Production of value-added chemicals from bio-oil via acid catalysis coupled with liquid-liquid extraction
title_sort	production of value-added chemicals from bio-oil via acid catalysis coupled with liquid-liquid extraction
url	http://hdl.handle.net/20.500.11937/6436

Production of value-added chemicals from bio-oil via acid catalysis coupled with liquid-liquid extraction

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