Alumina-supported AlPO-18 membranes for CO2/CH4 separation

Ting Wu; Bin Wang; Zhanghui Lu; Rongfei Zhou; Xiangshu Chen

doi:10.1016/j.memsci.2014.08.035

Alumina-supported AlPO-18 membranes for CO₂/CH₄ separation

Ting Wu, Bin Wang, Zhanghui Lu, Rongfei Zhou, Xiangshu Chen

化工学院

科研成果: 期刊稿件 › 文章 › 同行评审

84 引用（Scopus）

摘要

Selective AlPO-18 membranes were reproducibly synthesized on the outside surface of macroporous tubular α-alumina supports in a single hydrothermal synthesis step. The AlPO-18 crystals and membranes were characterized by SEM, XRD, adsorption and permeation measurements. Single-gas permeances of CO₂, N₂, CH₄ and i-C₄H₁₀ decreased with increased kinetic diameter, but CO₂ permeated faster than the smaller H₂, because CO₂ adsorbs more strongly. Eleven AlPO-18 membranes had an average CO₂ permeance of (1.8±0.5)×10^-7mol/(m²sPa) and average CO₂/CH₄ separation selectivities of 101±16 at room temperature and a pressure drop of 0.1MPa for the equimolar CO₂/CH₄ mixture. The membrane was also selective (selectivity=31) at 2MPa feed pressure and had a CO₂ permeance of 0.47×10^-7mol/(m²sPa) [CO₂ flux of 15kg/(m²h)]. The CO₂/CH₄ selectivities decreased as temperature and pressure drop increased. The membranes stability was investigated for different calcination times, calcination temperature ramps, and following exposures to water vapor and liquid.

源语言	英语
页（从-至）	338-346
页数	9
期刊	Journal of Membrane Science
卷	471
DOI	https://doi.org/10.1016/j.memsci.2014.08.035
出版状态	已出版 - 1 12月 2014

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10.1016/j.memsci.2014.08.035

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title = "Alumina-supported AlPO-18 membranes for CO2/CH4 separation",

abstract = "Selective AlPO-18 membranes were reproducibly synthesized on the outside surface of macroporous tubular α-alumina supports in a single hydrothermal synthesis step. The AlPO-18 crystals and membranes were characterized by SEM, XRD, adsorption and permeation measurements. Single-gas permeances of CO2, N2, CH4 and i-C4H10 decreased with increased kinetic diameter, but CO2 permeated faster than the smaller H2, because CO2 adsorbs more strongly. Eleven AlPO-18 membranes had an average CO2 permeance of (1.8±0.5)×10-7mol/(m2sPa) and average CO2/CH4 separation selectivities of 101±16 at room temperature and a pressure drop of 0.1MPa for the equimolar CO2/CH4 mixture. The membrane was also selective (selectivity=31) at 2MPa feed pressure and had a CO2 permeance of 0.47×10-7mol/(m2sPa) [CO2 flux of 15kg/(m2h)]. The CO2/CH4 selectivities decreased as temperature and pressure drop increased. The membranes stability was investigated for different calcination times, calcination temperature ramps, and following exposures to water vapor and liquid.",

keywords = "AlPO-18, CO/CH separation, Gas purification, Membrane stability, Zeolite membrane",

author = "Ting Wu and Bin Wang and Zhanghui Lu and Rongfei Zhou and Xiangshu Chen",

note = "Publisher Copyright: {\textcopyright} 2014 Elsevier B.V.",

year = "2014",

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doi = "10.1016/j.memsci.2014.08.035",

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T1 - Alumina-supported AlPO-18 membranes for CO2/CH4 separation

AU - Wu, Ting

AU - Wang, Bin

AU - Lu, Zhanghui

AU - Zhou, Rongfei

AU - Chen, Xiangshu

PY - 2014/12/1

Y1 - 2014/12/1

N2 - Selective AlPO-18 membranes were reproducibly synthesized on the outside surface of macroporous tubular α-alumina supports in a single hydrothermal synthesis step. The AlPO-18 crystals and membranes were characterized by SEM, XRD, adsorption and permeation measurements. Single-gas permeances of CO2, N2, CH4 and i-C4H10 decreased with increased kinetic diameter, but CO2 permeated faster than the smaller H2, because CO2 adsorbs more strongly. Eleven AlPO-18 membranes had an average CO2 permeance of (1.8±0.5)×10-7mol/(m2sPa) and average CO2/CH4 separation selectivities of 101±16 at room temperature and a pressure drop of 0.1MPa for the equimolar CO2/CH4 mixture. The membrane was also selective (selectivity=31) at 2MPa feed pressure and had a CO2 permeance of 0.47×10-7mol/(m2sPa) [CO2 flux of 15kg/(m2h)]. The CO2/CH4 selectivities decreased as temperature and pressure drop increased. The membranes stability was investigated for different calcination times, calcination temperature ramps, and following exposures to water vapor and liquid.

AB - Selective AlPO-18 membranes were reproducibly synthesized on the outside surface of macroporous tubular α-alumina supports in a single hydrothermal synthesis step. The AlPO-18 crystals and membranes were characterized by SEM, XRD, adsorption and permeation measurements. Single-gas permeances of CO2, N2, CH4 and i-C4H10 decreased with increased kinetic diameter, but CO2 permeated faster than the smaller H2, because CO2 adsorbs more strongly. Eleven AlPO-18 membranes had an average CO2 permeance of (1.8±0.5)×10-7mol/(m2sPa) and average CO2/CH4 separation selectivities of 101±16 at room temperature and a pressure drop of 0.1MPa for the equimolar CO2/CH4 mixture. The membrane was also selective (selectivity=31) at 2MPa feed pressure and had a CO2 permeance of 0.47×10-7mol/(m2sPa) [CO2 flux of 15kg/(m2h)]. The CO2/CH4 selectivities decreased as temperature and pressure drop increased. The membranes stability was investigated for different calcination times, calcination temperature ramps, and following exposures to water vapor and liquid.

KW - AlPO-18

KW - CO/CH separation

KW - Gas purification

KW - Membrane stability

KW - Zeolite membrane

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DO - 10.1016/j.memsci.2014.08.035

M3 - 文章

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VL - 471

SP - 338

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JO - Journal of Membrane Science

JF - Journal of Membrane Science

ER -

Alumina-supported AlPO-18 membranes for CO2/CH4 separation

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Alumina-supported AlPO-18 membranes for CO₂/CH₄ separation