Modified poly(phenylene oxide) membranes for the separation of carbon dioxide from methane

Two types of poly(phenytene oxide) (13130) membranes were prepared: one by chemical modification through sulfonation using chlorosulfonic acid and another by physical incorporation with a heteropolyacid (HPA), viz., phosphotungstic acid. These membranes were tested for the separation Of CO2/CH4 mixtures. Fourier transform infrared spectroscopy (FTIR) and X-ray diffraction techniques were used to confirm the modified structure of PPO as well as to understand its interactions with gaseous molecules. Scanning electron microscopy (SEM) was used to investigate the membrane morphology. Thermal stability of the modified polymers was assessed by differential scanning calorimetry (DSC), while the tensile strength was measured to evaluate their mechanical stability. Both chemical and physical modifications did not adversely affect the thermally and mechanical stabilities. Experiments with pure CO2 and CH4 gases showed that CO2 selectivity (27.2) for SPPO increased by a factor of 2.2, while the PPO-HPA membrane exhibited 1.7 times increase in selectivity with a reasonable permeability of 28.2 Barren An increase in flux was observed for the binary CO2/CH4 mixture permeation with an increasing feed concentration (5-40 mol%) Of CO2. An enhancement in feed pressure from 5 to 40 kg/cm(2) resulted in reduced CO2 permeability and selectivity due to the competitive sorption of methane. Both the modified PPO membranes were found to be promising for enrichment of methane despite exhibiting lower permeability values than the pristine PPO membrane. (c) 2006 Elsevier B.V. All rights reserved.