Separation of Carbon Dioxide from Natural Gas by Matrimid-Based Mixed Matrix Membranes

Spherical MgO nanoparticles and Flake-like clay minerals modified with polyaniline (PAni) are applied in Matrimid in order to fabricate mixed matrix membranes (MMMs) having improved gas separation performance. The CO۲ permeability, CO۲/CH۴ selectivity and CO۲-induced plasticization pressure of MMMs are assessed at ۴-۳۰ bar feed pressure. The chemical structure, morphology and thermal properties of MMMs are analyzed by Fourier transform infrared equipped with attenuated total reflection (FTIR-ATR), X-ray diffraction, field emission scanning electron microscopy (FESEM) and differential scanning calorimetry/thermogravimetric analyses. Crater-like morphology is seen for MMMs by FESEM tests Physical interaction of Matrimid with MgO and PAni, confirmed by FTIR-ATR, helps better distribution of both the fillers in the polymer matrix. Mechanistical analysis of gas sorption and diffusion terms reveals that PAni/clay (PC) enhances gas permeability by controlling diffusivity paths, while MgO nanoparticles improves both gas solubility and diffusivity. The permeability tests reveal that the sample PC۵M۵ with ۵ wt% PC and ۵ wt% MgO, has the best gas separation properties. High pressure tests reveal that this sample can enhance plasticization pressure and CO۲ permeability as well by ۷۶% and ۲۰۰%, respectively; resulting in ۴۲۵% enhancement in MMMs capacity in natural gas sweetening.