Improvement of Isopropyl Propionate Esterification Reaction using a Vapor Permeation Membrane Reactor

Authors

• Elham Ameri * ¹
• Ahmad Moheb ²

1. Department of Chemical Engineering, Islamic Azad University Shahreza Branch, Shahreza, Iran
2. Department of Chemical Engineering, Isfahan University of Technology, Isfahan, Iran.

Abstract

In this study, a vapor permeation-integrated heterogeneous catalytic esterification reaction was investigated to improve the ester conversion of propionic acid and isopropanol. The reaction was carried out using Amberlyst 15 (Rohm & Haas) as a catalyst with different weight fractions of 3%, 4%, 10%, and 12% wt. relative to propionic acid. A hydrophilic PERVAP^®2201 membrane (Sulzer) was used to remove water vapor from the glass reactor. Different molar ratios (1:1, 1.5:1, and 3:1) of alcohol to acid were used in the feed mixture. Applying the coupled membrane system, using 12wt.% of catalyst, increased the acid conversion from 39% (when no membrane was employed) to nearly 90% for three hours after the beginning of the process.  

Highlights

• Applying Amberlyst 15 (Rohm & Haas) as catalyst and hydrophilic PERVAP^®2201 membrane (Sulzer) in a bench scale vapor permeation apparatus.
• Coupling of the chemical reaction with the vapor permeation process
• Increase ester conversion in vapor permeation-aided heterogeneous catalytic esterification reaction

Graphical Abstract

Keywords

• Reaction
• Isopropyl Propionate
• PERVAP®2201
• Heterogeneous catalyst
• Ag/Ag2O