Hydrothermal Liquefaction of Lignin

Julia Schuler, U. Hornung, A. Kruse, N. Dahmen, J. Sauer
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引用次数: 36

Abstract

The majority of platform chemicals are currently provided through crude oil processes. Nevertheless, the substitution of the crude oil with biomass should be the ecological aim. Lignin, an aromatic macromolecule, may play an important role in that exchange, as it is the only bio based source of aromatic compounds. For instance, it could be a source of bifunctional aromatic molecules, like the monocyclic compounds catechol or guaiacol, or bifunctional oligomers. However, no process for the production of aromatics from lignin in technical scale has been established until now. Hence, the focus of this work is to clarify the chemical degradation mechanism under hydrothermal conditions, to liquefy lignin delivering high functional molecules and to increase the yield and selectivity of the cleavage towards bifunctional molecules like catechol. The combination of fast hydrolysis, thermal degradation reactions and hydrogenation drives the hydrothermal liquefaction; this gives the possibility to narrow down the product spectrum in comparison to other “dry” cleavage methods, towards a higher yield of e.g. catechols.
木质素的水热液化
目前,大多数平台化学品是通过原油工艺提供的。然而,用生物质替代原油应该是生态目标。木质素,一种芳香大分子,可能在这种交换中发挥重要作用,因为它是芳香化合物的唯一生物来源。例如,它可以是双功能芳香分子的来源,如单环化合物邻苯二酚或愈创木酚,或双功能低聚物。然而,到目前为止,还没有建立以木质素为原料生产芳烃的技术规模的工艺。因此,这项工作的重点是阐明水热条件下的化学降解机制,液化传递高功能分子的木质素,并提高对邻苯二酚等双功能分子的裂解产率和选择性。快速水解、热降解反应和加氢的结合驱动了水热液化;与其他“干”裂解方法相比,这提供了缩小产物谱的可能性,以获得更高的产率,例如邻苯二酚。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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