화학공학소재연구정보센터
Renewable Energy, Vol.171, 994-1001, 2021
Enhancing bagasse enzymatic hydrolysis through combination of ball-milling and LiCl/DMSO dissolution and regeneration
In this work, a novel pretreatment strategy through combination of ball-milling and LiCl/DMSO dissolution and regeneration was developed, and its effect on bagasse enzymatic hydrolysis was investigated. The results showed that, after ball-milling, the bagasse crystallinity and average particle size were declined from 48.1% to 22.6% and 118.6 mu m-20.7 mu m, respectively, however, its surface area was augmented from 4.9 m(2)/g to 10.3 m(2)/g. Following LiCl/DMSO dissolution and regeneration, a certain amount of lignin (similar to 26.3%) was removed, and portion of cellulose crystalline structure were swelled and converted from type I to II. The highest yields of glucose and xylose obtained from above combined pretreatment were 87.8% and 84.2%, respectively, which were both significantly higher than those obtained from single ball-milling or LiCl/DMSO dissolution and regeneration. It can be concluded that the combination of ball-milling and LiCl/DMSO dissolution and regeneration was a promising approach for improving bagasse enzymatic saccharification. (C) 2021 Elsevier Ltd. All rights reserved.