Transformations of Glycerol into High-Value-Added Chemical Products: Ketalization and Esterification Reactions

Reactions Pub Date : 2023-10-08 DOI:10.3390/reactions4040034
Federico M. Perez, Martin N. Gatti, Gerardo F. Santori, Francisco Pompeo
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Abstract

Biomass allows us to obtain energy and high-value-added compounds through the use of different physical and chemical processes. The glycerol obtained as a by-product in the synthesis of biodiesel is considered a biomass compound that has the potential to be used as a raw material to obtain different chemical products for industry. The development and growth of the biodiesel industry allows for the projection of glycerol biorefineries around these plants that efficiently and sustainably integrate the biodiesel production process together with the glycerol transformation processes. This work presents a review of the ketalization and esterification of glycerol to obtain solketal and acetylglycerols, which are considered products of high added value for the chemical and fuel industry. First, the general aspects and mechanisms of both reactions are presented, as well as the related chemical equilibrium concepts. Subsequently, the catalysts employed are described, classifying them according to their catalytic nature (zeolites, carbons, exchange resins, etc.). The reaction conditions used are also described, and the best results for each catalytic system are presented. In addition, stability studies and the main deactivation mechanisms are discussed. Finally, the work presents the kinetic models that have been formulated to date for some of these systems. It is expected that this review work will serve as a tool for the advancement of studies on the ketalization and esterification reactions that allow for the projection of biorefineries based on glycerol as a raw material.
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甘油转化为高附加值化工产品:烷基化和酯化反应
生物质使我们能够通过使用不同的物理和化学过程获得能源和高附加值化合物。在合成生物柴油的过程中作为副产物获得的甘油被认为是一种生物质化合物,具有作为原料用于工业生产不同化学产品的潜力。生物柴油行业的发展和增长使得在这些工厂周围的甘油生物精炼厂能够有效和可持续地将生物柴油的生产过程与甘油转化过程结合起来。本文介绍了甘油的酮化和酯化反应,以获得被认为是化工和燃料工业高附加值产品的索酮甘油和乙酰甘油。首先,介绍了这两种反应的一般方面和机理,以及相关的化学平衡概念。随后,介绍了所采用的催化剂,并根据其催化性质(沸石、碳、交换树脂等)对其进行了分类。还介绍了反应条件,并给出了每种催化体系的最佳效果。此外,还讨论了稳定性研究和主要失活机理。最后,该工作提出了动力学模型,已制定了迄今为止的一些这些系统。期望这项综述工作将成为推进以甘油为原料的生物精炼厂的烷基化和酯化反应研究的工具。
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