Yield of Phenolic Monomers from Lignin Hydrothermolysis in Subcritical Water System

Lignin is the most noncellulosic based abundant natural organic polymer with the highest number of aromatic units. It is mainly extracted from wood in the Kraft pulping process and used as boiler fuel. However, the number of high-value applications of lignin remains small. The aim of this study is t...

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Bibliographic Details
Published in:Industrial & engineering chemistry research 2018-04, Vol.57 (14), p.4779-4784
Main Authors: Islam, Mohammad Nazrul, Taki, Golam, Rana, Masud, Park, Jeong-Hun
Format: Article
Language:English
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Summary:Lignin is the most noncellulosic based abundant natural organic polymer with the highest number of aromatic units. It is mainly extracted from wood in the Kraft pulping process and used as boiler fuel. However, the number of high-value applications of lignin remains small. The aim of this study is to explore the yield of phenolic monomers from lignin hydrothermal conversion in subcritical water. The hydrothermal experiments were carried out at different subcritical conditions to explore the influence of reaction temperature (200–350 °C), time (0–60 min), and lignin to water ratio (1:10–1:80). The results show that the yields of bio-oils (sum of crude-oil and water-soluble organics regarded as light-oil) with a range of 28.9–44.7 wt % (of dry lignin fed) were strongly influenced by these operating parameters. The crude-oil contained a small amount of monomers (0.1–2.8 wt % of lignin), whereas a large amount of monomers was composed in the light-oil (1.2–6.3 wt % of lignin). The most abundant monomers produced from hydrothermal reactions were guaiacol and cate-chol, with the highest yields of 1.18 wt % (11.8 mg/g at 300 °C) and 1.88 wt % (18.8 mg/g at 350 °C), respectively.
ISSN:0888-5885
1520-5045
DOI:10.1021/acs.iecr.7b05062