期刊
INTERNATIONAL JOURNAL OF BIOLOGICAL MACROMOLECULES
卷 251, 期 -, 页码 -出版社
ELSEVIER
DOI: 10.1016/j.ijbiomac.2023.126374
关键词
Poplar; Hemicellulose; Hydrothermal pretreatment; Ferric chloride; pH buffer
This study used hydrothermal pretreatment with ferric chloride and pH buffer to separate poplar components. The optimal conditions were 0.10 M ferric chloride concentration, 150 degrees C reaction temperature, 15 min reaction time, and pH 1.9. The pH buffering resulted in the highest cellulose and lignin retention compared to ferric chloride pretreatment. The high efficiency separation of hemicellulose via HFB pretreatment inhibited the degradation of xylose and the hydrolysate was effectively reused.
As an environmentally friendly lignocellulosic biomass separation technology, hydrothermal pretreatment (HP) has a strong application prospect. However, the low separation efficiency is a main factor limiting its application. In this study, the poplar components were separated using HP with ferric chloride and pH buffer (HFB). The optimal conditions were ferric chloride concentration of 0.10 M, reaction temperature of 150 degrees C, reaction time of 15 min and pH 1.9. The separation of hemicellulose was increased 34.03 % to 77.02 %. The pH buffering resulted in the highest cellulose and lignin retention yields compared to ferric chloride pretreatment (FC). The high efficiency separation of hemicellulose via HFB pretreatment inhibited the degradation of xylose. The hydrolysate was effectively reused for five times. The fiber crystallinity index reached 60.05 %, and the highest C/O ratio was obtained. The results provide theoretical support for improving the efficiency of HP and promoting its application.
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