Abstract
Silicalite-1/ceramic composite membrane was prepared on the outer surface of the α-Al2O3 tubular support byin-situ hydrothermal synthesis. The membrane was characterized by X-ray diffraction (XRD) and scanning electron microscope (SEM). The pure gas permeances of H2, N2, Ar, CH4, C2H4, C2H6, C3H8, n-C4H10 and i-C4H10 were measured as a function of the pressure difference at 298 and 473 K. The permeances of H2, N2 and Ar showed little dependence on the pressure differences; the permselectivities of H2/i-C4H10 were 249 and 36.2 at 298 and 473 K respectively, which is a characteristic of molecular transport in silicalite-1 channels. The permeances of light alkanes decreased in the following order: CH4>C2H6>C3H8>n-C4H10>i-C4H10. The permselectivity of n-C4H10/i-C4H10 was above 15 at 298 K. As the temperature increased, the permeances of all gases increased except those of N2 and Ar, and a significant increment was found for alkanes. The permselectivity ofn-C4H10/i-C4H10 decreased to about 9 at 473 K. The gas permeation results showed that the silicalite-1/ceramic composite membrane was defect-free.
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