改进生物柴油多相催化生产工艺

Onukwuli Dominic Okechukwu , Ezeugo Joseph , Ude Callistus Nonso , Nwosu-Obieogu Kenechi
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引用次数: 16

摘要

多相催化在生物柴油生产中的重要性再怎么强调也不为过,因为多相催化剂消除了与均相催化剂相关的缺点。一些多相催化剂存在一些缺点,如部分可回收性和可重复使用性,生物柴油加工过程中的能源和废物保护问题以及活性催化剂位点的浸出。本文重点综述了几种用于生物柴油生产的多相催化剂。重点介绍了碱型和酸型多相催化剂的制备、反应条件、原料和生物柴油产率。多相碱催化剂无法将高游离脂肪酸(FFA)的低品位油进行反式酯化是一个主要问题;使用多相酸催化剂加工高FFA低品位油的成本也是一个大问题。具有独特性能的纳米掺杂非均相催化剂被推荐使用,因为它们可以处理高FFA酯交换率的油,提高反应效率,简化生产,减少活性位点的浸出,通过最大限度地减少能源和浪费,提高生物柴油的产量,并提高催化剂的可回收性,活性,选择性和耐久性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Improving heterogeneous catalysis for biodiesel production process

The relevance of heterogeneous catalysis in biodiesel production cannot be overemphasized, as heterogeneous catalysts have eliminated the demerits associated with a homogeneous catalysts. Some heterogeneous catalysts experience drawbacks such as partial recoverability and reusability, energy and waste conservation issues during biodiesel processing and leaching of active catalyst sites. This paper highlights and summarizes several heterogeneous catalysts used in biodiesel production. The catalyst preparation, reaction conditions, feedstock, and biodiesel yield for the heterogeneous base and acid catalysts were emphasized. The inability of heterogeneous base catalysts to trans-esterify low-grade oil with high free fatty acid (FFA) is a primary concern; the cost of processing low-grade oil with high FFA using heterogeneous acid catalysts is also a big issue. Nano-doped heterogeneous catalysts with unique properties were recommended because they can process oil with high FFA transesterification, improve reaction efficiency, simplify production, reduce the leaching of active sites, enable better biodiesel yield by minimizing energy and waste, and increase catalyst recoverability, activity, selectivity and durability.

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