Comparative study on use of pervaporation membrane reactor for lauric acid – Methanol esterification
Künye
Ugur Nigiz, F. (2021). Comparative study on use of pervaporation membrane reactor for lauric acid – methanol esterification. Separation and Purification Technology, 264 doi:10.1016/j.seppur.2021.118443Özet
n this study, an esterification reaction between lauric acid and methanol was performed in an inert and catalytic
pervaporation membrane reactor (PVMR) and the conversion results were compared. Reactions were also per-
formed in a batch reactor, demonstrating the advantage of membrane reactors over conventional reactors.
Phosphotungstic acid (PTA), a strongly heteropolyacid, was used as a catalyst. An inert and PTA coated polyvinyl
alcohol membranes were synthesized for use in the inert and catalytic membrane reactor, respectively. Effects of
catalyst concentration (from 1 wt% to 2 wt%), methanol/lauric acid molar ratio (from 2 to 6), and temperature
(from 50 ◦C to 65 ◦C) on lauric acid conversion and membrane separation performance were studied. Throughout
the study, the effect of membrane separation performance on acid conversion was clearly demonstrated. Under
all operating conditions, the acid conversion results obtained in inert and catalytic PVMR were higher than in
batch reactors. When the methanol/lauric acid molar ratio was 6, the temperature was 65 ◦C, and the catalyst
ratio was 2 wt%, a conversion of 80.7% was obtained in the batch reactor, while 98.9% and 97.5% of conversions
were obtained in the inert and catalytic membrane reactor, respectively. Based on these results, it has been
relatively demonstrated that inert and catalytic PVMR systems are efficient in producing fatty acid methyl ester.