Analytical Sciences

Evaluation of the Dehydration Performance of Zeolite NaA Membrane on Porous Alumina Tube by the Alumina X-ray Diffraction Intensity

Tomohiro KYOTANI, Soushi INOUE, Sonoko KAKUI, and Junji SAITO

Bussan Nanotech Research Institute, Inc., Mitsui & Co. Ltd. Nanotech Park, 2-1, Koyadai, Tsukuba, Ibaraki 305-0074, Japan

A zeolite NaA (A-type zeolite of ca. 0.4 nm pore size; Linde Type A, LTA) membrane for the dehydration of alcohol was characterized by X-ray diffraction analysis (XRD). Also, the relationship between the X-ray absorption and the EtOH/H₂O pervaporation (PV) dehydration performance (water selectivity and permeation flux) of the LTA membrane was first investigated. The LTA membranes used here were gel-synthesized hydrothermally on an alumina porous support tube. Since diffraction lines from the alumina generate from a deeper layer than those of the LTA crystal, and are absorbed by both the surface LTA crystal and materials embedded in the alumina porous support, the alumina (113) diffraction line was intensively monitored to estimate the overall X-ray absorption by the LTA membrane. The intensity of the alumina (113) diffraction line showed a good correlation with the PV dehydration performance of the LTA membrane, that is, lower values with the water selectivity and higher values with the permeation flux. The lower diffraction intensity means stronger X-ray absorption by the LTA membrane. The major factor causing the difference in the X-ray absorption is the thickness or quantity of materials embedded in an alumina porous support, rather than those of the surface LTA crystal. These phenomena can be used conveniently (without real PV experiments) to determine the EtOH/H₂O PV dehydration performance of the LTA membrane.

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