半流式反应器中甲醇/水混合物的工艺参数对木质生物质分馏的影响

IF 3.2 Q2 CHEMISTRY, PHYSICAL
Energy advances Pub Date : 2024-08-14 DOI:10.1039/D4YA00261J
Yilin Yao, Eiji Minami and Haruo Kawamoto
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引用次数: 0

摘要

木质生物质在高温高压的甲醇/水混合物中降解,是利用可再生资源生产化学品的一个很有前景的候选方案,它结合了水的木材降解能力和甲醇的产品溶解能力。然而,水和甲醇对木材降解的影响仍不清楚。本研究使用压力和温度可独立控制的半流反应器,在 270 °C 和 10-30 兆帕的条件下,研究了工艺参数对日本杉在甲醇/水中降解的影响。在 270 °C 的条件下,10 兆帕时半纤维素更容易降解和溶解,而 20 和 30 兆帕时则更容易木质素化。在生成物中,木质素的针叶醇甲基化和半纤维素的甲基葡糖酸戊聚糖甲基酯化在 20 和 30 兆帕时比在 10 兆帕时更快。这些结果表明,在 10 兆帕时,水的影响占主导地位并促进多糖降解,而在 20 和 30 兆帕时,甲醇的影响占主导地位并促进脱木素。我们的研究结果将为利用溶解技术从木质生物质中高效生产化学品提供启示。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Effect of process parameters on woody biomass fractionation in a methanol/water mixture in a semi-flow reactor†

Effect of process parameters on woody biomass fractionation in a methanol/water mixture in a semi-flow reactor†

Effect of process parameters on woody biomass fractionation in a methanol/water mixture in a semi-flow reactor†

The degradation of woody biomass in methanol/water mixtures at elevated temperatures and pressures is a promising candidate for chemical production from renewable resources, combining the wood-degrading ability of water with the product-dissolving capacity of methanol. However, the effects of water and methanol on wood degradation remain unclear. In the present study, the effect of process parameters on the degradation of Japanese cedar in methanol/water at 270 °C and 10–30 MPa was investigated using a semi-flow reactor in which pressure and temperature can be controlled independently. At 270 °C, hemicelluloses were degraded and solubilized more preferentially at 10 MPa, but delignification was more preferred at 20 and 30 MPa. In the resulting products, methylation of coniferyl alcohol from lignin and methyl esterification of methyl glucuronopentosan from hemicellulose were more advanced at 20 and 30 MPa than at 10 MPa. These results suggest that at 10 MPa the influence of water is dominant and promotes polysaccharide degradation, whereas at 20 and 30 MPa the influence of methanol is dominant and promotes delignification. Our findings will provide insight into the establishment of efficient chemical production from woody biomass with solvolysis technology.

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