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• W2741248524 abstract "Plasticization is of important concern in high pressure natural gas separation. Majority of the pure polymers and MOF-MMM systems suffer from plasticization at low pressures. Combination of polymer blending and MMM approach could lead to plasticization resistant membranes with improved membrane performance. In this work, the gas separation performance of Matrimid® and PSF blend membranes containing ZIF-8 nanoparticles, were studied. The effect of ZIF-8 loading on the gas transport and plasticization behavior of the blend-MOF MMMs was investigated. Gas permeability measurements of PI/PSF-ZIF-8 MMMs showed significant improvements in permeability of both CO2 and CH4, compared to pure reference polymer membrane. At a high loading of 30 wt% ZIF-8, MMM showed an enhancement of 136% in CO2 permeability compared to the pure PI/PSF membrane, while the selectivity stayed constant. This increase in the permeability could be related to the moderate increase in sorption capacity and faster diffusion of gases through the ZIF-8 nanoparticles. More detailed analysis of the gas transport performance of the MMMs showed that the CO2 permeability and the CO2/CH4 selectivity were mainly governed by the increase in CO2 diffusion coefficient. Blend MMMs were considerably more resistant to plasticization phenomenon compared to the pure PI membrane. For pure gases, native PI/PSF blend membrane showed a plasticization pressure of ∼18 bar, which increased to ∼25 bar up to 30 wt% ZIF-8 loading. Short and long CO2 exposure time experiments, with different upstream pressures, showed that the permeability stayed constant in time at pressures below the plasticization pressure while a noticeable increase in permeability was recorded in time at higher pressures. Additionally, these experiments showed that the extent of dilation in the pure PI/PSF membrane was much higher compared to the PI/PSF-ZIF-8 MMMs. In mixed gas (50/50 mol% CO2/CH4) experiments, the pure PI/PSF membrane and the MMMs did not show plasticization over the pressure range investigated, as confirmed by a constant mixed gas CH4 permeability and nearly constant selectivity with pressure. While the pure PI and PI-ZIF-8 MMMs showed the plasticization behavior. Comparing the mixed gas performance of PI/PSF-ZIF-8 membranes with that of pure PI/PSF membranes at high pressures an increase of 197% in CO2 permeability and 30% in CO2/CH4 selectivity was obtained. These results showed that the combination of polymer blending and the mixed matrix membrane approach offers a simple and economically versatile tool to approach higher CO2 permeabilities and CO2/CH4 selectivities while maintaining a stable separation performance in processes involving higher CO2 partial pressures." @default.
• W2741248524 created "2017-08-08" @default.
• W2741248524 creator A5033266524 @default.
• W2741248524 creator A5041677390 @default.
• W2741248524 date "2017-12-01" @default.
• W2741248524 modified "2023-10-17" @default.
• W2741248524 title "Matrimid®/polysulfone blend mixed matrix membranes containing ZIF-8 nanoparticles for high pressure stability in natural gas separation" @default.
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• W2741248524 doi "https://doi.org/10.1016/j.seppur.2017.07.075" @default.
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