期刊
CATALYSTS
卷 13, 期 2, 页码 -出版社
MDPI
DOI: 10.3390/catal13020284
关键词
reactive pervaporation; modeling; simulation; design charts; esterification; isoamyl acetate
This study analyzes and designs a liquid phase esterification process using reactive pervaporation to convert acetic acid and isoamyl alcohol into isoamyl acetate with the help of a catalyst. By coupling a catalytic reactor with a separation membrane unit, the chemical reaction equilibrium is shifted towards the desired product by removing water. Through simulations and design charts, it is predicted that the integrated plug flow reactor-pervaporation reactor provides the best performance, with optimum ester yields as high as 0.94.
This study reports the analysis and design of a liquid phase esterification process to convert acetic acid with isoamyl alcohol into isoamyl acetate via reactive pervaporation, in the presence of an Amberlite IR-120 ion exchange resin catalyst. To accomplish this, a catalytic reactor is coupled with a separation membrane unit (Pervaporation Membrane Reactor (PVMR)). In the proposed unit, the chemical reaction equilibrium is favorably shifted towards isoamyl acetate formation by removing water with the help of a separation membrane. The study is developed by using relevant thermodynamics, kinetics, and membrane transport models, and by considering different catalytic reactor-pervaporator membrane configurations such as: (a) a two-step continuous fixed bed-pervaporator process (FBR+PVMU), (b) a two-step continuous slurry reactor-pervaporator process (SR+PVMU), (c) a single-step integrated fixed bed-pervaporator reactor (IFBPVMR), and d) a single step integrated slurry-pervaporator reactor (ISPVMR). The performance of the PVMRs is evaluated by using a R recycle ratio, a omega membrane area to reactor volume ratio, and D-a Damkohler dimensionless parameters. From the various proposed configurations, it is shown that the integrated plug flow reactor-pervaporation reactor (IFBPVMR) provides the best performance. On the basis of various simulations and design charts developed in the present study, operational conditions leading to optimum ester yields as high as 0.94 are predicted. These results provide a valuable prospect for the industrial scale-up and implementation of isoamyl acetate production units.
作者
我是这篇论文的作者
点击您的名字以认领此论文并将其添加到您的个人资料中。
推荐
暂无数据