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研究领域工程学化学工程能源和燃烧中的化学和热过程
在生物质的地质聚合物预处理过程中诱导分子内键以保护素

在生物质的地质聚合物预处理过程中诱导分子内键以保护素

Jianli Tan ¹, Zirong Qiu ¹, Tao Wang ¹, Yexuan Tang ¹, Yanming Li ², Xuemin Cui ¹

Jianli Tan ¹, Zirong Qiu ¹, Tao Wang ¹

¹School of Chemistry & Chemical Engineering, Guangxi Key Lab of Petrochemical Resource Processing and Process Intensification Technology, Guangxi University, Nanning 530004, China.
²Guangxi Academy of Sciences, Nanning 530000, China.

⁰School of Chemistry & Chemical Engineering, Guangxi Key Lab of Petrochemical Resource Processing and Process Intensification Technology, Guangxi University, Nanning 530004, China.

International Journal of Biological Macromolecules +

|

2025年八月22日

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在PubMed上查看摘要

概括

此摘要是机器生成的。

用地质聚合物增强的氧化物 (NaOH) 预处理为生物炼油厂选择性去除红素提供了一种绿色方法. 这种工艺提高了木质素的产量,减少了废水污染,使木质纤维素提炼更可持续.

科学领域

生物质预处理
绿色化学
生物炼油技术

背景情况

传统的性预处理导致过度的树脂脱聚,阻碍了生物炼油效率.
严厉的脱过程会产生大量的废水,给环境带来挑战.

研究的目的

使用地质聚合物增强的NaOH预处理开发一个环保和高度选择性的脱过程.
优化预处理条件以最大限度地提高素产量和单糖保持量.
研究地质聚合物增强红素选择性的机制.

主要方法

使用地质聚合物增强的氧化物 (NaOH) 预处理.
优化的参数包括地质聚合物与NaOH的比率 (5:1),120分钟的持续时间和120°C的温度.
分析的红素产量,单糖保持,黑色液体pH值和化学氧气需求 (COD) 的降低.
通过机理学研究研究了素微球结构和结合.

主要成果

达到60. 5%的最佳红素产量,单糖保持率为88. 9%.
通过酸沉将黑色液体的度降低到pH11,并消除了64%的COD.
在5个水回收周期中保持一致的红素产量 (53%-60%).
机械研究显示地质聚合物通过分子内键和六角环形成稳定性.

结论

用地质聚合物增强的NaOH预处理是一种高度选择性和环保的纤维素去除方法.
该工艺显著减少了废水污染,适用于零排放的废水生物提炼.
这一战略为生物炼油厂的纤维纤维素利用提供了一个可持续的方法.

关键词:

地质聚合物内分子结素微球预处理

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相关概念视频

Hydrolysis

Hydrolysis

Overview
Hydrolysis is a chemical reaction in which the addition of water breaks down a polymer into its simpler monomer units. For example, peptides break into amino acids, carbohydrates into simple sugars, and DNA into nucleotides. Enzymes often facilitate these processes.
Hydrolysis Reverses Dehydration Synthesis
Complex carbohydrates can be broken down by breaking the bonds between individual sugar units. The reaction breaks a glycosidic bond as water is added to the compound. The...

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