Delignification of Pinecone and Extraction of Formic Acid in the Hydrolysate Produced by Alkaline Fractionation

The objectives of our research are to investigate the concept of delignification from pinecone through alkaline fractionation and then extraction of formic acid from the hydrolysate through esterification using ethanol. The pinecone is considered a promising material because of its relatively higher...

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Bibliographic Details
Published in:Applied biochemistry and biotechnology 2020-09, Vol.192 (1), p.103-119
Main Authors: Cha, Jin Seong, Um, Byung Hwan
Format: Article
Language:English
Subjects:
Acids
Biochemistry
Biomass
Biotechnology
Chemical Fractionation
Chemistry
Chemistry and Materials Science
Distillation
Esterification
Esters - chemistry
Ethanol
Ethanol - chemistry
Fermentation
Formates - chemistry
Formic acid
Fractionation
Glucan
Glucans - chemistry
Hydrolysis
Lignin
Lignin - chemistry
Lignocellulose
Pinus
Reaction time
Sodium hydroxide
Solvents
Temperature
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Summary:The objectives of our research are to investigate the concept of delignification from pinecone through alkaline fractionation and then extraction of formic acid from the hydrolysate through esterification using ethanol. The pinecone is considered a promising material because of its relatively higher lignin content (35.80%) than other lignocellulosic biomass. The recovery yield of acid insoluble lignin (AIL) reached its maximum value of 79.20% at 8% NaOH, and the concentration of formic acid in the hydrolysate had its highest value under the same conditions. Moreover, the glucan content in fractionated solid remained high. The hydrolysate was subjected to esterification with ethanol under various reaction conditions for formic acid extraction, with solvent mixing ratio range: 1:1–1:4 v/v, reaction temperature range: 30–45 °C, and reaction time range: 60–100 min. Subsequently, the ethanol mixture (ethanol and ethyl formate) was recovered through distillation. The formic acid was extracted with more than 85% at mixing ratio of 1:2 and 45 °C for all reaction times. Furthermore, salt compounds composed mainly of Na and S were recovered because of its properties not soluble in ethanol solution.
ISSN:0273-2289
1559-0291
DOI:10.1007/s12010-020-03311-z