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JOURNAL ARTICLE

High-Pressure CO2/CH4 Separation Using SAPO-34 Membranes

Shiguang LiJanna MartinekJohn L. FalconerRichard D. NobleTracy Q. Gardner

Year: 2005 Journal:   Industrial & Engineering Chemistry Research Vol: 44 (9)Pages: 3220-3228   Publisher: American Chemical Society
DOI: 10.1021/ie0490177
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Abstract

SAPO-34 membranes on stainless steel, tubular supports separated CO2 from CH4 at feed pressures up to 3.1 MPa. The highest CO2 permeance was 2.4 × 10-7 mol/(m2 s Pa) for a 50/50 feed mixture at a pressure drop of 0.14 MPa. For a pressure drop of 3 MPa, the CO2/CH4 separation selectivities at 253 K were 140−150; at lower pressure drops, the highest selectivity was 270. The highest CO2 flux was 21 kg/(m2 h) at 295 K and a pressure drop of 3 MPa. Separation selectivity decreased as temperature increased because separation was partly based on competitive adsorption. As transmembrane pressure drop increased, both CO2 flux and CO2 permeate concentration increased for a 50/50 mixture. The flux pressure dependence was modeled by Maxwell−Stefan diffusion for mixtures. Methane decreased the CO2 diffusion rate and, thus, decreased the CO2 flux. The CH4 flux was also lower in a mixture because CO2 inhibits CH4 adsorption.

Keywords:
Permeance Selectivity Membrane Pressure drop Chemistry Flux (metallurgy) Analytical Chemistry (journal) Methane Chromatography Diffusion Adsorption Drop (telecommunication) Gas separation Permeation Materials science Thermodynamics Physical chemistry Organic chemistry Catalysis

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Cited By
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18
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Citation History

Topics

Membrane Separation and Gas Transport
Physical Sciences →  Engineering →  Mechanical Engineering
Zeolite Catalysis and Synthesis
Physical Sciences →  Chemistry →  Inorganic Chemistry
Carbon Dioxide Capture Technologies
Physical Sciences →  Engineering →  Mechanical Engineering

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