TY - JOUR SN - 03767388 PB - Elsevier EP - 601 AV - none TI - Influence of solvent exchange time on mixed matrix membrane separation performance for CO2/N2 and a kinetic sorption study SP - 590 N1 - cited By 25 Y1 - 2015/// VL - 476 UR - https://www.scopus.com/inward/record.uri?eid=2-s2.0-84923884833&doi=10.1016%2fj.memsci.2014.11.008&partnerID=40&md5=c593ea5542bcb7cdc8c7ff7304fd52f1 A1 - Jawad, Z.A. A1 - Ahmad, A.L. A1 - Low, S.C. A1 - Chew, T.L. A1 - Zein, S.H.S. JF - Journal of Membrane Science KW - Carbon; Carbon dioxide; Drying; Ethanol; Gas emissions; Greenhouse gases; Hexane; Kinetics; Membranes; Multiwalled carbon nanotubes (MWCN); Organic solvents; Polymers; Separation; Solubility; Solvents; Sorption; Yarn KW - Gas separations; Kinetic sorption; Mixed matrix membranes; Solvent exchanges; Vacuum drying KW - Gas permeable membranes KW - carbon dioxide; cellulose acetate; hexane; multi walled nanotube; nitrogen; solvent KW - adsorption; adsorption kinetics; Article; artificial membrane; chemical interaction; controlled study; diffusion; dipole; gas; gas diffusion; mixed matrix membrane; priority journal; separation technique; solubility; surface tension; water content ID - scholars6033 N2 - Carbon dioxide (CO2) is the largest contributor of greenhouse gas emissions. Mixed matrix membranes (MMMs) have recently received attention as an attractive candidate for membrane-based separation, for which MMMs can serve as an alternative to conventional polymeric and inorganic membranes. In this work, MMMs were developed using a cellulose acetate polymer with multi-walled carbon nanotubes. Vacuum drying and solvent-exchange drying methods were compared with different solvent exchange times (ethanol and hexane) based on the MMM morphologies and separation performances. The sorption of CO2 and the diffusion and solubility coefficients of the MMMs that were synthesized using the two drying methods mentioned above were determined kinetically. The separation results supported the effectiveness of the newly proposed solvent-exchange technique, where the MMMs that were treated with ethanol for 4h followed by n-hexane for 1h (M6) had greater mechanical strength and a better CO2/nitrogen (N2) separation performance at 40.17. Additionally, the kinetic results indicated that the solubility coefficient directly influenced the CO2 permeance, with the highest value of 198.352�1011cm3(STP)/cm4cmHg observed for the M6 membrane sample (4h ethanol followed by 1h n-hexane). © 2014 Elsevier B.V. ER -