Catalytic Conversion of High Fructose Corn Syrup to Methyl Lactate with Coo@Silicalite-1

Yuxi Jiang, Xilei Lyu, Hao Chen, Xiwen Wei, Zihao Zhang, Xiuyang Lu
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引用次数: 1

Abstract

Methyl lactate (MLA), a versatile biomass platform, was typically produced from the catalytic conversion of high-priced fructose. High fructose corn syrup (HFCS) is a mixture of glucose, fructose, water, etc., which is viewed as an economical substitute for fructose to produce MLA due to the much lower cost of separation and drying processes. However, the transformation of HFCS to MLA is still a challenge due to its complex components and the presence of water. In this work, the catalytic conversion of HFCS to MLA over CoO@silicalite-1 catalyst synthesized via a straightforward post citric acid treatment approach was reported. The maximum MLA yield reached 43.8% at 180 °C for 18 h after optimizing the reaction conditions and Co loading. Interestingly, adding extra 3% water could further increase the MLA yield, implying that our CoO@silicalite-1 catalyst is also capable for upgrading wet HFCS. As a result, the costly drying process of wet HFCS can be avoided. Moreover, the activity of CoO@silicalite-1 catalyst can be regenerated for at least four cycles via facile calcination in air. This study, therefore, will provide a new opportunity to not only solve the HFCS-overproduction issues but also produce value-added MLA.
Coo@Silicalite-1催化高果糖玉米糖浆制乳酸甲酯的研究
乳酸甲酯(MLA)是一种多功能的生物质平台,通常由高价果糖的催化转化产生。高果糖玉米糖浆(HFCS)是由葡萄糖、果糖、水等混合而成,由于其分离和干燥过程的成本低得多,因此被认为是一种经济的果糖替代品来生产MLA。然而,由于其复杂的成分和水的存在,将HFCS转化为MLA仍然是一个挑战。在这项工作中,报道了通过直接的后柠檬酸处理方法合成的CoO@silicalite-1催化剂上HFCS催化转化为MLA。优化反应条件和Co负载,在180℃下反应18 h, MLA产率达到43.8%。有趣的是,额外添加3%的水可以进一步提高MLA的产率,这意味着我们的CoO@silicalite-1催化剂也能够升级湿式HFCS。因此,可以避免昂贵的湿式高果糖玉米糖浆干燥过程。此外,CoO@silicalite-1催化剂的活性可以在空气中通过易烧再生至少四个循环。因此,本研究将为解决氢氟碳化物生产过剩问题和生产增值MLA提供新的机会。
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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