The Performance of PPOdm-CNF Mixed Matrix Membrane for CO2/CH4 Separation
DOI:
https://doi.org/10.15282/ijame.15.1.2018.14.0393Keywords:
Carbon nanofiber; poly (2, 6-dimethyl-1,4-pheneylene oxide); mixed matrix membrane; CO2 separation.Abstract
Mixed Matrix Membrane (MMM) is one of the most promising candidate among the available gas separation application for CO2/CH4 separation in natural gas industries. However, the fabrication of a defect-free MMM remains a challenge. For this work, a novel MMM was developed by incorporating carbon nanofibers (CNF) at different weight loadings into poly (2, 6-dimethyl-1, 4-pheneylene oxide) (PPOdm) polymer matrix via dry-phase inversion technique. CNF was purified with hydrogen peroxide prior to
membrane fabrication. Approximately 178 % increment in the CO2 permeability were attained at 3 wt% of CNF loading whereas the CO2/CH4 selectivity were increased by 53% compared to pristine PPOdm polymeric membrane. The smooth wall of CNF coupled with its larger pore diameter acted as a pathway and renders high gas permeability values. PPOdm – 3 wt% CNF MMM exhibits improved morphology with no significant filler agglomeration on the polymer matrix. The TGA and DSC analysis showed that at 3 wt%
of CNF loading, the thermal stability of the polymer chains was enhanced in which higher decomposition (Td = 425 ºC) and glass transition (Tg =210 ºC) temperatures were reported.
