通过参数调节在MTHF/HO双相体系中同时高效生产糠醛及后续的葡萄糖

Simultaneous and Efficient Production of Furfural and Subsequent Glucose in MTHF/HO Biphasic System via Parameter Regulation.

作者信息

Sun Shaolong, Cao Xuefei, Li Huiling, Zhu Yingbo, Li Yijing, Jiang Wei, Wang Yang, Sun Shaoni

机构信息

College of Natural Resources and Environment, South China Agricultural University, Guangzhou 510642, China.

Beijing Key Laboratory of Lignocellulosic Chemistry, Beijing Forestry University, Beijing 100083, China.

出版信息

Polymers (Basel). 2020 Mar 3;12(3):557. doi: 10.3390/polym12030557.

DOI:10.3390/polym12030557

PMID:32138299

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7182857/

Abstract

Efficient production of furfural from cornstalk in 2-Methyltetrahydrofuran/aqueous (MTHF/HO) biphasic system via parameter regulation (e.g., V/V, temperature, time, and HSO concentration) was proposed. The resulting solid residues achieved from the different MTHF/HO system conditions for furfural production were also to prepare glucose by adding cellulases to increase the high-value applications of cornstalk. A maximum furfural yield (68.1%) was obtained based on reaction condition (V:V = 1:1, 170 °C, 60 min, 0.05 M HSO). Among these parameters, the concentration of HSO had the most obvious effect on the furfural production. The glucose yields of the residues acquired from different MTHF/HO processes were enhanced and then a maximum value of 78.9% based on the maximum furfural production conditions was observed. Single factor may not be sufficient to detail the difference in glucose production, and several factors affected the hydrolysis efficiency of the residues. Overall, the MTHF/HO system effectively converted cornstalk into furfural and glucose via a simple and environment-friendly process, thus was an ideal manner for the food industries.

摘要

提出了通过参数调节（如体积比、温度、时间和硫酸浓度）在2-甲基四氢呋喃/水（MTHF/H₂O）双相体系中从玉米秸秆高效生产糠醛的方法。从糠醛生产的不同MTHF/H₂O体系条件下获得的固体残渣，也通过添加纤维素酶来制备葡萄糖，以增加玉米秸秆的高值应用。基于反应条件（体积比 = 1:1、170℃、60分钟、0.05 M硫酸）获得了最大糠醛产率（68.1%）。在这些参数中，硫酸浓度对糠醛生产的影响最为明显。从不同MTHF/H₂O工艺获得的残渣的葡萄糖产率得到提高，然后基于最大糠醛生产条件观察到最大值为78.9%。单因素可能不足以详细说明葡萄糖生产的差异，几个因素影响了残渣的水解效率。总体而言，MTHF/H₂O体系通过简单且环保的工艺有效地将玉米秸秆转化为糠醛和葡萄糖，因此是食品工业的理想方式。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/0205/7182857/ee0720940ad3/polymers-12-00557-g001.jpg

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通过参数调节在MTHF/HO双相体系中同时高效生产糠醛及后续的葡萄糖

Simultaneous and Efficient Production of Furfural and Subsequent Glucose in MTHF/HO Biphasic System via Parameter Regulation.

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