Homogenous Acidic and Basic Catalysts in Biodiesel Synthesis: A Review

Acta Chemica Malaysia Pub Date : 2020-08-03 DOI:10.2478/acmy-2020-0013

A. M. Shakorfow, Abdulaziz H. Mohamed

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引用次数: 6

Abstract

Abstract Several techniques, in which different homogenous catalysts and procedures, that are in use for transesterification of a vegetable oil or an animal fat have been successful in synthesizing biodiesel, although with some certain limitations. For such a purpose, among the catalysts employed are acidic as well as basic catalysts. It has been found that acidic catalysts can be tolerant with a high content of free fatty acids found in those low value feedstock oils/fats to be transesterified, although some sort of pretreatment by means of esterification might be required in order to synthesize biodiesel. Moreover, with employing homogenous acidic catalysts, it seems that biodiesel purification procedures are simplified; thus, reducing synthesis cost. In fact, these features of homogenous acidic catalysts render them advantageous over basic ones. With basic homogenous catalysts this; however, has not been possible due to the development of saponification reaction. To effectively perform, such catalysts require that the content of free fatty acids in the feedstock oil/fat is minimal. This requirement is also applicable to the moisture level in the feedstock. In terms of corrosive effects; nevertheless, acidic catalysts are disadvantageous compared to basic ones.

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均相酸碱性催化剂在生物柴油合成中的应用进展

几种技术，其中不同的均相催化剂和程序，用于植物油或动物脂肪的酯交换反应已经成功地合成了生物柴油，尽管有一定的局限性。为此，所采用的催化剂既有酸性催化剂，也有碱性催化剂。尽管为了合成生物柴油可能需要通过酯化进行某种预处理，但研究发现，酸性催化剂可以耐受用于酯交换的低价值原料油/脂肪中的高含量游离脂肪酸。此外，采用均相酸性催化剂，似乎简化了生物柴油的纯化程序;从而降低合成成本。事实上，均相酸性催化剂的这些特性使其优于碱性催化剂。碱性均相催化剂是这样的;然而，由于皂化反应的发展一直无法实现。为了有效地发挥作用，这种催化剂要求原料油/脂肪中游离脂肪酸的含量最少。这一要求也适用于原料中的水分水平。在腐蚀作用方面;然而，酸性催化剂与碱性催化剂相比是不利的。

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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Acta Chemica Malaysia

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