Relationship between characteristics of ethanol organosolv lignin and the productivity of phenolic monomers by solvolysis

•Ethanol organosolv lignin was isolated as a function of the fractionation severity.•High EOL yield (12.9wt.%) was obtained at CSF 2.0 with low NBO yield.•Moderate EOL yield (9.0wt.%) and high NBO yield was acquired at CSF 0.6.•Reduced NBO yield and productivity of phenolic monomers of EOL are well...

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Bibliographic Details
Published in:Fuel (Guildford) 2016-12, Vol.186, p.770-778
Main Authors: Kim, Ho-Yong, Jang, Soo-Kyeong, Hong, Chang-Young, Choi, Joon Weon, Choi, In-Gyu
Format: Article
Language:English
Subjects:
Combined severity factor
Ethanol organosolv lignin
Nitrobenzene oxidation
Phenolic monomers
Solvolysis
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Summary:•Ethanol organosolv lignin was isolated as a function of the fractionation severity.•High EOL yield (12.9wt.%) was obtained at CSF 2.0 with low NBO yield.•Moderate EOL yield (9.0wt.%) and high NBO yield was acquired at CSF 0.6.•Reduced NBO yield and productivity of phenolic monomers of EOL are well correlated.•The highest yield of 3.6g of phenolic monomers/kg dry biomass was achieved at CSF 0.6. This paper describes the effect of the structural properties of ethanol organosolv lignin (EOL) on the productivity of phenolic monomers by solvolysis. EOL was isolated from yellow poplar as a function of the fractionation combined severity (CSF). Structural properties of EOL such as volatile matter, molecular weight, and nitrobenzene oxidation (NBO) yield were significantly decreased with the increasing severity. The highest EOL yield (12.9wt.%) was obtained at CSF 2.0, but it also showed a significant decrement of NBO yield and molecular weight, and as a result, the yield of phenolic monomers after solvolysis was low (23.3mg/g EOL). Despite of slight low fractionation yield (9.0wt.%), the maximum yield of phenolic monomers after solvolysis was obtained from EOL fractionated at CSF 0.6 (40.4mg/g EOL; 3.6g/kg dry biomass), which has a considerably high NBO yield and aryl-ether linkages than EOL fractioned at higher CSF.
ISSN:0016-2361
1873-7153
DOI:10.1016/j.fuel.2016.09.023