Gas transport property of polyallylamine–poly(vinyl alcohol)/polysulfone composite membranes
2008
Abstract Polyallylamine (PAAm) was synthesized by free radical polymerization and characterized by Fourier transform infrared resonance (FT-IR) spectroscopy, hydrogen nuclear magnetic resonance ( 1 H NMR) spectroscopy and differential scanning calorimetry (DSC). The composite membranes were prepared by using PAAm–poly(vinyl alcohol) (PVA) blend polymer as the separation layer and polysulfone (PSF) ultrafiltration membranes as the support layer. The surface and cross-section morphology of the membrane was inspected by environmental scanning electron microscopy (ESEM). The gas transport property of the membranes, including gas permeance, flux and selectivity, were investigated by using pure CO 2 , N 2 , CH 4 gases and CO 2 /N 2 gas mixture (20 vol% CO 2 and 80 vol% N 2 ) and CO 2 /CH 4 gas mixture (10 vol% CO 2 and 90 vol% CH 4 ). The plots of gas permeance or flux versus feed gas pressure imply that CO 2 permeation through the membranes follows facilitated transport mechanism whereas N 2 and CH 4 permeation follows solution–diffusion mechanism. Effect of PAAm content in the separation layer on gas transport property was investigated by measuring the membranes with 0–50 wt% PAAm content. With increasing PAAm content, gas permeance increases initially, reaches a maximum, and then decreases gradually. For CO 2 /N 2 gas mixture, the membranes with 10 wt% PAAm content show the highest CO 2 permeance of about 1.80 × 10 −5 cm 3 (STP) cm −2 s −1 KPa −1 and CO 2 /N 2 selectivity of 80 at 0.1 MPa feed gas pressure. For CO 2 /CH 4 gas mixture, the membranes with 20 wt% PAAm content display the highest CO 2 permeance of about 1.95 × 10 −5 cm 3 (STP) cm −2 s −1 KPa −1 and CO 2 /CH 4 selectivity of 58 at 0.1 MPa feed gas pressure. In order to explore the possible reason of gas permeance varying with PAAm content, the crystallinity of PVA and PAAm–PVA blend polymers was measured by X-ray diffraction (XRD) spectra. The experimental results show an inverse relationship between crystallinity and gas permeance, e.g. , a minimum crystallinity and a maximum CO 2 permeance are obtained at 20 wt% PAAm content, indicating that the possibility of increasing CO 2 permeance with PAAm content due to the increase of carrier concentration could be weakened by the increase of crystallinity.
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