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LTA/Poly(1-trimethylsilyl-1-propyne) mixed-matrix membranes for high-temperature CO2/N2 separation

机译:LTA /聚(1-三甲基甲硅烷基-1-丙炔)混合基质膜用于高温CO2 / N2分离

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Mixed-matrix membranes (MMM) consisting of poly(1-trimethylsilyl-1-propyne) (PTMSP) as continuous matrix and small-pore LTA-framework zeolites with Si/Al ratios from 1 (commercial zeolite A) to ¥ (ITQ-29) as dispersed phase were prepared by solution casting. The thermal stability of the MMM is as high as that of glassy PTMSP polymer, whose high permeability is maintained even at increasing temperature. The effect of the Si/Al ratio in the zeolite fillers on the membrane performance is observed by the increasing CO2/N2 permselectivity of low-Si/Al ratio zeolite A-based membranes, in comparison with pure silica ITQ-29. The performance of the LTA-type zeolite-PTMSP MMM was adjusted to the modified Maxwell model by estimating the chain immobilization factor and the interphase thickness as a function of temperature, Si/Al ratio, and zeolite loading.
机译:混合基质膜(MMM),由作为连续基质的聚(1-三甲基甲硅烷基-1-丙炔)(PTMSP)和Si / Al比为1(商业沸石A)至¥(ITQ- 29)通过溶液流延制备为分散相。 MMM的热稳定性与玻璃状PTMSP聚合物的热稳定性一样高,即使在升高的温度下也能保持高渗透性。与纯二氧化硅ITQ-29相比,低Si / Al比沸石A基膜的CO2 / N2渗透选择性增加,从而观察到了沸石填料中Si / Al比对膜性能的影响。通过评估链固定因子和相间厚度随温度,Si / Al比和沸石负载的函数,将LTA型沸石-PTMSP MMM的性能调整为改进的Maxwell模型。

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