酸和碱催化1,4-丁二醇预处理协同生产可发酵糖和木质素增值化合物的比较研究。

Xinyu Xie, Mingjun Chen, Wenyao Tong, Kai Song, Jing Wang, Shufang Wu, Jinguang Hu, Yongcan Jin, Qiulu Chu
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引用次数: 1

摘要

背景:有机溶剂预处理是脱木质素和促进生物质糖化的最有效方法之一。与典型的乙醇有机溶剂预处理相比,1,4-丁二醇(BDO)有机溶剂预处理是一种高沸点溶剂预处理,在高温蒸煮过程中可以在反应器内产生低压,提高了操作安全性。虽然有研究表明,有机溶剂预处理可以有效地去除木质素,增强葡聚糖的水解,但目前还没有关于酸和碱催化BDO预处理的研究,以及它们在促进生物质糖化和木质素利用方面的比较。结果:在相同的预处理条件下,与典型的乙醇有机溶剂预处理相比,BDO有机溶剂预处理对杨木木质素的脱除效果更好。40 mM酸负荷的盐酸- bdo预处理可使生物质中原有木质素的去除率达到82.04%,而盐酸-乙醇预处理的木质素去除率为59.66%。此外,酸催化BDO预处理比碱催化BDO预处理更有效地提高杨树的酶消化率。结果表明,当酸负荷为40 mM时,HCl-BDO对原始木质生物质纤维素的酶消化率为91.16%,产糖率最高为79.41%。绘制了BDO预处理杨树的理化结构(如纤维膨胀、纤维素结晶度、晶粒大小、表面木质素覆盖率和纤维素可及性)变化与酶解的线性关系,找出了影响生物质糖化的主要因素。酸催化BDO预处理主要导致木质素结构中酚羟基(PhOH)基团的形成,碱催化BDO预处理主要导致木质素分子量的降低。结论:酸催化BDO有机溶剂预处理可显著提高高顽固性木质生物质的酶消化率。葡聚糖的酶解作用很大,主要是由于纤维素的可接近性提高,这主要与脱木质素和半纤维素增溶程度的提高有关,同时也与纤维溶胀程度的增加有关。此外,从有机溶剂中回收木质素,可作为天然抗氧化剂使用。木质素结构中酚羟基的形成和较低的分子量使木质素具有较强的自由基清除能力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Comparative study of acid- and alkali-catalyzed 1,4-butanediol pretreatment for co-production of fermentable sugars and value-added lignin compounds.

Comparative study of acid- and alkali-catalyzed 1,4-butanediol pretreatment for co-production of fermentable sugars and value-added lignin compounds.

Comparative study of acid- and alkali-catalyzed 1,4-butanediol pretreatment for co-production of fermentable sugars and value-added lignin compounds.

Comparative study of acid- and alkali-catalyzed 1,4-butanediol pretreatment for co-production of fermentable sugars and value-added lignin compounds.

Background: Organosolv pretreatment is one of the most efficient methods for delignification and boosting biomass saccharification. As compared to typical ethanol organosolv pretreatments, 1,4-butanediol (BDO) organosolv pretreatment is a high-boiling-point solvent pretreatment, which can generate low pressure in the reactor during high temperature cooking that improves the operation safety. Although several studies showed that organosolv pretreatment can lead to effective delignification and enhancement in glucan hydrolysis, there has been no studies on acid- and alkali-catalyzed BDO pretreatment, as well as their comparison on promoting biomass saccharification and lignin utilization.

Results: It was shown that BDO organosolv pretreatment was more effective in removing lignin from poplar as compared with typical ethanol organosolv pretreatment under the same pretreatment conditions. HCl-BDO pretreatment with 40 mM acid loading led to 82.04% of original lignin removed from biomass, as compared to the lignin removal of 59.66% in HCl-Ethanol pretreatment. Besides, acid-catalyzed BDO pretreatment was more effective in improving the enzymatic digestibility of poplar than alkali-catalyzed BDO pretreatment. As a result, HCl-BDO with acid loading of 40 mM provided a good enzymatic digestibility of cellulose (91.16%) and the maximum sugar yield of 79.41% from original woody biomass. The linear correlations between physicochemical structure (e.g., fiber swelling, cellulose crystallinity, crystallite size, surface lignin coverage and cellulose accessibility) changes of BDO pretreated poplar and enzymatic hydrolysis were plotted to figure out the main factors that influenced biomass saccharification. Moreover, acid-catalyzed BDO pretreatment mainly brought about the phenolic hydroxyl (PhOH) groups formation in lignin structure, while alkali-catalyzed BDO pretreatment mostly led to the lower molecular weight of lignin.

Conclusions: Results indicated that the acid-catalyzed BDO organosolv pretreatment could significantly improve enzymatic digestibility of the highly recalcitrant woody biomass. The great enzymatic hydrolysis of glucan resulted from increased cellulose accessibility, which mostly associated with the higher degree of delignification and hemicellulose solubilization, as well as the more increase in fiber swelling. Besides, lignin was recovered from the organic solvent, which could be used as natural antioxidants. The formation of phenolic hydroxyl groups in lignin structure and the lower molecular weight of lignin contributed to its greater radical scavenging capacity.

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