利用高压二氧化碳预处理实现巨桉的可持续增值和高效下游加工。

Sustainable Valorisation and Efficient Downstream Processing of Giant Reed by High-Pressure Carbon Dioxide Pretreatment.

机构信息

Department of Chemistry and Industrial Chemistry, University of Pisa, Via Giuseppe Moruzzi 13, 56124, Pisa, Italy.

Consorzio Interuniversitario per le Reattività Chimiche e la Catalisi (CIRCC), Via Celso Ulpiani 27, 70126, Bari, Italy.

出版信息

Chempluschem. 2022 Oct;87(10):e202200189. doi: 10.1002/cplu.202200189. Epub 2022 Aug 23.

DOI:10.1002/cplu.202200189

PMID:35997649

Abstract

This work investigated the catalytic high-pressure CO pretreatment of giant reed. CO is a renewable resource; its use does not generate chemical wastes and it can be easily removed and recycled. The effect of the addition of low concentrations of FeCl (0.16 wt %) and PEG 400 (1.0 wt %) on the hemicellulose hydrolysis to xylose and xylo-oligosaccharides (XOS) is reported for the first time. Under the optimised pretreatment conditions, the xylan conversion of 82 mol % and xylose and XOS yields of 43 and 20 mol % were achieved, respectively. The solid residues obtained from different pretreatments were used as the substrate for the enzymatic hydrolysis to give glucose. The total glucose yield achieved under the optimised two-step process was 67.8 mol % with respect to the glucan units in the biomass. The results demonstrated that PEG-assisted FeCl -catalysed scCO pretreatment can produce xylose- or XOS-rich hydrolysates and improve the enzymatic hydrolysis of biomass.

摘要

这项工作研究了巨藻的催化高压 CO 预处理。CO 是一种可再生资源；使用它不会产生化学废物，而且可以很容易地去除和回收。首次报道了添加低浓度 FeCl（0.16wt%）和 PEG 400（1.0wt%）对木聚糖水解为木糖和木二糖（XOS）的影响。在优化的预处理条件下，木聚糖转化率为 82mol%，木糖和 XOS 的收率分别为 43mol%和 20mol%。从不同预处理得到的固体残渣用作酶水解的底物以得到葡萄糖。两步优化工艺下，相对于生物质中的葡聚糖单元，总葡萄糖得率为 67.8mol%。结果表明，PEG 辅助的 FeCl 催化 scCO 预处理可以产生富含木糖或 XOS 的水解产物，并提高生物质的酶水解效率。

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利用高压二氧化碳预处理实现巨桉的可持续增值和高效下游加工。

Sustainable Valorisation and Efficient Downstream Processing of Giant Reed by High-Pressure Carbon Dioxide Pretreatment.

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