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Abtin Ebadi Amooghin

Abtin Ebadi Amooghin

Academic rank: Associate Professor
ORCID: https://orcid.org/0000-0002-2839-0317
Education: PhD.
ScopusId: 57219773367
HIndex:
Faculty: Engineering
Address: Arak University
Phone: 086-32622020

Research

Title
Time-dependent mathematical modeling of binary gas mixture in facilitated transport membranes (FTMs): A real condition for single-reaction mechanism
Type
JournalPaper
Keywords
Mixed gas separation Facilitated transport membrane Instantaneous reaction Numerical modeling Non liner reaction diffusion equation
Year
2016
Journal Journal of Industrial and Engineering Chemistry
DOI
Researchers Mohammad Mehdi Moftakhari Sharifzadeh ، Abtin Ebadi Amooghin ، Mona Zamani Pedram ، Mohammadreza Omidkhah

Abstract

In this study, a comprehensive time-dependent mathematical model for gas separation through the facilitated transport membranes (FTMs) is presented. The model results have been validated with independent CO2/N2 binary gas mixture experiments in DEA-impregnated PVA membranes. In the proposed model, non-equal diffusion coefficients of the carrier/complex and equilibrium constant for the chemical reaction kinetics between the carrier/permeant in the FTM have been considered. In addition, a method to compute the diffusion coefficients, which depend on the concentration of each component in the FTM, is presented. Moreover, effect of carrier concentration, feed partial pressure, kinetics of reversible chemical reactions and membrane performances depending on operating condition have been analyzed. Owing to accurate calculation of physical–chemical parameter involved, this model is much more executive comparing to previous works. In addition, the real condition of the reaction kinetics and influencing of diffusion parameters of the components in FTMs, have been investigated. The predicted selectivity and permeability revealed good conformity with experimental data; with standard deviation (SD) 8.57% and 12.87%, respectively. In conclusion, this model with significant validity would be predictive in cases for the entire range of diffusion-limit to a chemical-limit regime where the experimental data, geometry condition, physical–chemical property of parameters is not available.