Enhanced conversion of Glycerol to Glycerol carbonate on modified Bio-Char from reed plant

Q4 Chemical Engineering

Journal of Chemical and Petroleum Engineering Pub Date : 2019-12-30 DOI:10.31699/ijcpe.2019.4.3

S. mohamed, M. J. Ahmed

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Abstract

The surplus glycerol produced from biodiesel production process as a by-product with high quantity can be considered as a good source to prepare glycerol carbonate (GC) whereas with each 1000 kg from biodiesel obtains 100 kg from glycerol. Glycerol converted to glycerol carbonate over bio-char as a catalyst prepared by slow pyrolysis process under various temperatures from 400 ᴼC to 800 ᴼC. The char prepared at 700 ᴼC considered as a best one between the others which was manufactured to activate the transesterification reaction. GC have large scale of uses such as liquid membrane in gas separation, surfactants ,detergents , blowing agent , in plastics industry, in Pharmaceutical industry and electrolytes in lithium batteries. Yield percent of GC is 9.3% without catalyze the reaction with char whereas in case of bio-char used the GC yield increases to 67.80%. When the catalyst modified with 3 molar concentration of sodium hydroxide, the yield of glycerol carbonate obtained 98.3% and complete conversion. All the reaction in this study performed under conditions 60ᴼC, 90 min, 3:1 DMC:G and 3%wt. catalyst loading.

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芦苇改性生物炭促进甘油向碳酸甘油的转化

生物柴油生产过程中产生的大量剩余甘油作为副产品可被认为是制备碳酸甘油(GC)的良好来源，每1000公斤生物柴油可获得100公斤甘油。以生物炭为催化剂，在400ᴼ~ 800ᴼ℃的不同温度下进行慢热解，将甘油转化为碳酸甘油。在700ᴼ℃下制备的焦炭被认为是激活酯交换反应的最佳焦炭。气相色谱在气体分离中的液膜、表面活性剂、洗涤剂、发泡剂、塑料工业、制药工业和锂电池中的电解质等方面有着广泛的应用。在不与炭催化反应的情况下，气相色谱的产率为9.3%，而与生物炭催化反应时，气相色谱的产率可达67.80%。当用3mol / l浓度的氢氧化钠对催化剂进行改性时，碳酸甘油的收率达到98.3%，转化率完全。本研究的所有反应均在60ᴼ℃，90 min, 3:1 DMC:G和3%wt的条件下进行。装载催化剂。

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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