In situ synthesis of P-type zeolite membranes on porous α-alumina supports

Junhang Dong; Y. S. Lin

doi:10.1021/ie970851o

In situ synthesis of P-type zeolite membranes on porous α-alumina supports

Junhang Dong, Y. S. Lin

Research output: Contribution to journal › Article › peer-review

82 Scopus citations

Abstract

P-type zeolite membranes were hydrothermally synthesized on porous α-alumina supports by the in situ crystallization method. Permselectivity as high as 102 was obtained for H₂/SF₆ by the P zeolite membrane. At room temperature, the permselectivities for H₂/Ar and CH₄/Ar are respectively 5.29 and 2.36 and the corresponding permeance of H₂ is 5.71×10^-7 mol m^-2 s^-1 Pa^-1. The apparent activation energies for permeation of H₂, CH₄, and Ar through the P-type zeolite membranes in 25-65 °C were estimated to be 11.1, 9.1, and 15.2 kJ/mol, respectively. In a dry atmosphere, the crystalline structure of the zeolite layer gradually transforms from the cubic to tetragonal phase at temperatures higher than 65 °C. The transformation does not result in drastic changes in gas permeance and permselectivity, indicating that the P-type zeolite films are still continuous. The P-type zeolite membranes are more stable in a humid atmosphere.

Original language	English (US)
Pages (from-to)	2404-2409
Number of pages	6
Journal	Industrial and Engineering Chemistry Research
Volume	37
Issue number	6
DOIs	https://doi.org/10.1021/ie970851o
State	Published - Jun 1998
Externally published	Yes

ASJC Scopus subject areas

General Chemistry
General Chemical Engineering
Industrial and Manufacturing Engineering

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title = "In situ synthesis of P-type zeolite membranes on porous α-alumina supports",

abstract = "P-type zeolite membranes were hydrothermally synthesized on porous α-alumina supports by the in situ crystallization method. Permselectivity as high as 102 was obtained for H2/SF6 by the P zeolite membrane. At room temperature, the permselectivities for H2/Ar and CH4/Ar are respectively 5.29 and 2.36 and the corresponding permeance of H2 is 5.71×10-7 mol m-2 s-1 Pa-1. The apparent activation energies for permeation of H2, CH4, and Ar through the P-type zeolite membranes in 25-65 °C were estimated to be 11.1, 9.1, and 15.2 kJ/mol, respectively. In a dry atmosphere, the crystalline structure of the zeolite layer gradually transforms from the cubic to tetragonal phase at temperatures higher than 65 °C. The transformation does not result in drastic changes in gas permeance and permselectivity, indicating that the P-type zeolite films are still continuous. The P-type zeolite membranes are more stable in a humid atmosphere.",

author = "Junhang Dong and Lin, {Y. S.}",

year = "1998",

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doi = "10.1021/ie970851o",

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issn = "0888-5885",

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T1 - In situ synthesis of P-type zeolite membranes on porous α-alumina supports

AU - Dong, Junhang

AU - Lin, Y. S.

PY - 1998/6

Y1 - 1998/6

N2 - P-type zeolite membranes were hydrothermally synthesized on porous α-alumina supports by the in situ crystallization method. Permselectivity as high as 102 was obtained for H2/SF6 by the P zeolite membrane. At room temperature, the permselectivities for H2/Ar and CH4/Ar are respectively 5.29 and 2.36 and the corresponding permeance of H2 is 5.71×10-7 mol m-2 s-1 Pa-1. The apparent activation energies for permeation of H2, CH4, and Ar through the P-type zeolite membranes in 25-65 °C were estimated to be 11.1, 9.1, and 15.2 kJ/mol, respectively. In a dry atmosphere, the crystalline structure of the zeolite layer gradually transforms from the cubic to tetragonal phase at temperatures higher than 65 °C. The transformation does not result in drastic changes in gas permeance and permselectivity, indicating that the P-type zeolite films are still continuous. The P-type zeolite membranes are more stable in a humid atmosphere.

AB - P-type zeolite membranes were hydrothermally synthesized on porous α-alumina supports by the in situ crystallization method. Permselectivity as high as 102 was obtained for H2/SF6 by the P zeolite membrane. At room temperature, the permselectivities for H2/Ar and CH4/Ar are respectively 5.29 and 2.36 and the corresponding permeance of H2 is 5.71×10-7 mol m-2 s-1 Pa-1. The apparent activation energies for permeation of H2, CH4, and Ar through the P-type zeolite membranes in 25-65 °C were estimated to be 11.1, 9.1, and 15.2 kJ/mol, respectively. In a dry atmosphere, the crystalline structure of the zeolite layer gradually transforms from the cubic to tetragonal phase at temperatures higher than 65 °C. The transformation does not result in drastic changes in gas permeance and permselectivity, indicating that the P-type zeolite films are still continuous. The P-type zeolite membranes are more stable in a humid atmosphere.

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In situ synthesis of P-type zeolite membranes on porous α-alumina supports

Abstract

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