硫酸化活性炭催化剂上甘油乙酰化制备生物燃料添加剂。

Acetylation of glycerol to biofuel additives over sulfated activated carbon catalyst.

机构信息

School of Chemical Engineering, Engineering Campus, Universiti Sains Malaysia, 14300 NibongTebal, Penang, Malaysia.

出版信息

Bioresour Technol. 2011 Oct;102(19):9229-35. doi: 10.1016/j.biortech.2011.07.035. Epub 2011 Jul 21.

DOI:10.1016/j.biortech.2011.07.035

Abstract

Oxygenated fuel additives can be produced by acetylation of glycerol. A 91% glycerol conversion with a selectivity of 38%, 28% and 34% for mono-, di- and triacetyl glyceride, respectively, was achieved at 120 °C and 3 h of reaction time in the presence of a catalyst derived from activated carbon (AC) treated with sulfuric acid at 85 °C for 4h to introduce acidic functionalities to its surface. The unique catalytic activity of the catalyst, AC-SA5, was attributed to the presence of sulfur containing functional groups on the AC surface, which enhanced the surface interaction between the glycerol molecule and acyl group of the acetic acid. The catalyst was reused in up to four consecutive batch runs and no significant decline of its initial activity was observed. The conversion and selectivity variation during the acetylation is attributed to the reaction time, reaction temperature, catalyst loading and glycerol to acetic acid molar ratio.

摘要

含氧燃料添加剂可通过甘油的乙酰化来生产。在 120°C 和 3 小时的反应时间条件下，在一种由活性炭（AC）经硫酸处理得到的催化剂存在下，实现了 91%的甘油转化率，分别为单乙酰甘油、二乙酰甘油和三乙酰甘油的选择性为 38%、28%和 34%。该催化剂在 85°C 下处理 4 小时以在其表面引入酸性官能团。催化剂 AC-SA5 的独特催化活性归因于 AC 表面上含硫官能团的存在，这增强了甘油分子与乙酸的酰基之间的表面相互作用。该催化剂在多达四个连续批次的运行中可重复使用，且其初始活性没有明显下降。乙酰化过程中的转化率和选择性变化归因于反应时间、反应温度、催化剂负载量和甘油与乙酸的摩尔比。

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硫酸化活性炭催化剂上甘油乙酰化制备生物燃料添加剂。

Acetylation of glycerol to biofuel additives over sulfated activated carbon catalyst.

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