水热耦合机械预处理木质纤维吸附纤维素酶行为及调控机制的研究

结题报告

项目介绍

AI项目解读

基本信息

批准号：
31770634
项目类别：
面上项目
资助金额：
61.0万
负责人：
刘苇
依托单位：
天津科技大学
学科分类：
C1604.林产化学
结题年份：
2021
批准年份：
2017
项目状态：
已结题
起止时间：
2018-01-01 至2021-12-31

项目参与者：
侯庆喜；刘鹏涛；张方东；李雅珊；王晓迪；张宏雷；汪兵；王思；王玉；
关键词：
木质纤维素非生产性吸附预处理纤维素酶水解生物质炼制

项目摘要

Pretreatment is the key for the conversion and utilization of bioresources. The combination of hydrothermal pretreatment and mechanical refining would fully play their respective advantages in the pretreatment of lignocellulosic biomass. The combined pretreatment can not only extract valuable components (e.g., hemicelluloses) from biomass, reduce energy consumption of mechanical refining, separate the fibers, but also can change the physical and chemical properties of lignocellulosic biomass, improve the accessibility of cellulose to enzymes, thereby enhance the enzymatic hydrolysis efficiency of lignocellulosic biomass to provide fermentable sugars for biofuels' production. This present project focuses on the absorption behavior of cellulase onto pretreated lignocellulosic biomass by combination of hydrothermal pretreatment and mechanical refining and the regulation mechanism of the whole process. The research work will be conducted by combing two paths of theoretical research and process optimization, and using multi-angle and multi-scale methods to analysis and characterize. The interaction and synergy between the hydrothermal pretreatment and mechanical refining, the effect of the combined pretreatment on the separation of fibers and fibers’ characteristics, as well as the absorption behavior of cellulase onto the obtained fibers substrates were studied comprehensively and systematically. The influence and regulation mechanism of the combined pretreatment on the subsequent enzymatic hydrolysis of lignocellulosic biomass would be established finally. The research of this project will provide theoretical basis for the improvement and optimization of pretreatment technology, and promote the efficient integration of biorefinery and pulp & paper industry.

预处理是实现生物质资源高效转化和利用的关键。水热耦合机械预处理能够充分发挥各自的优势，既能提取部分半纤维素等有价值的组分，降低机械处理能耗，又能实现木质纤维的分离，改变木质纤维的物理化学特性，提高纤维素的可及度，从而强化酶水解效率为生产生物能源提供可发酵糖。本项目围绕“水热耦合机械预处理木质纤维吸附纤维素酶行为及调控机制”开展研究，结合理论研究和工艺优化两条路径，借助多角度、多尺度的分析和表征，全面、系统地研究水热耦合机械预处理间的相互影响和增效、预处理对木质纤维的分离及纤维特性的影响以及木质纤维底物对纤维素酶的吸附行为，以期明确水热耦合机械预处理对酶水解的影响机理和调控机制，实现生物质资源的高效转化和利用。该项目的研究将为进一步丰富生物质资源的预处理提供技术支持和理论依据，促进生物质精炼与制浆造纸工业的融合。

结项摘要

项目成果

期刊论文数量（14）

专著数量（0）

科研奖励数量（0）

会议论文数量（0）

专利数量（1）

Improving enzymatic hydrolysis of mechanically refined poplar branches with assistance of hydrothermal and Fenton pretreatment

借助水热和芬顿预处理改善机械精制杨树枝的酶水解

DOI：
10.1016/j.biortech.2020.123920
发表时间：
2020-11-01
期刊：
BIORESOURCE TECHNOLOGY
影响因子：
11.4
作者：
Liu, Wei;Wu, Ruijie;Ni, Yonghao
通讯作者：
Ni, Yonghao

Characterization and comparison of lignin derived from corncob residues to better understand its potential applications

玉米芯残留物木质素的表征和比较，以更好地了解其潜在应用

DOI：
10.1016/j.ijbiomac2019.05.013
发表时间：
2019
期刊：
International Journal of Biological Macromolecules
影响因子：
8.2
作者：
Wang Yu;Liu Wei;Zhang Liguo;Hou Qingxi
通讯作者：
Hou Qingxi

Corncob residues as carbon quantum dots sources and their application in detection of metal ions

玉米芯残渣作为碳量子点源及其在金属离子检测中的应用

DOI：
10.1016/j.indcrop.2019.03.019
发表时间：
2019-07
期刊：
Industrial Crops and Products
影响因子：
5.9
作者：
Zhang Liguo;Wang Yu;Liu Wei;Ni Yonghao;Hou Qingxi
通讯作者：
Hou Qingxi

Fabrication of optically transparent and strong nanopaper from cellulose nanofibril based on corncob residues

基于玉米芯残留物的纤维素纳米原纤维制备光学透明且坚固的纳米纸

DOI：
10.1016/j.carbpol.2019.03.035
发表时间：
2019
期刊：
Carbohydrate Polymers
影响因子：
11.2
作者：
Wang Yu;Zhang Liguo;Liu Wei;Cui Chen;Hou Qingxi
通讯作者：
Hou Qingxi

Facile fabrication of cellulose composite films with excellent UV resistance and antibacterial activity

易于制造具有优异抗紫外线和抗菌活性的纤维素复合薄膜

DOI：
10.1016/j.carbpol.2019.115213
发表时间：
2019
期刊：
Carbohydrate Polymers
影响因子：
11.2
作者：
Wang Xiao;Wang Shanyong;Liu Wei;Wang Si;Zhang Liguo;Sang Ranran;Hou Qingxi;Li Jinsong
通讯作者：
Li Jinsong

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