Synthesis of defect-free FAU-type zeolite membranes and separation for dry and moist CO2/N2 mixtures

Xuehong Gu; Junhang Dong; Tina M. Nenoff

doi:10.1021/ie049263i

Synthesis of defect-free FAU-type zeolite membranes and separation for dry and moist CO₂/N₂ mixtures

Xuehong Gu, Junhang Dong, Tina M. Nenoff

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

165 Scopus citations

Abstract

In this paper, the effects of synthesis conditions, including the seeding approach, gel composition, and hydrothermal treatment process, on the quality of porous α-alumina-supported Y-type FAU membranes were studied. Defect-free, pure NaY-type zeolite membranes have been synthesized and investigated for separation of equimolar CO₂/N₂ mixtures under dry and moist conditions at atmospheric pressure. At room temperature, the CO₂ selectivity was about 31.2 for the CO₂/ N₂ dry gas mixture with a CO₂ permeance of 2.1 × 10^-8 mol/m²·Pa·s. The addition of water vapor to the feed stream decreased the permeance for both CO₂ and N₂ in a temperature range of 23-200°C. The existence of water vapor significantly enhanced the CO₂ selectivity at 110-200°C but drastically lowered the CO₂ selectivity below 80°C. At 200°C, with increasing water partial pressure, the CO₂ selectivity increased and then decreased after reaching a maximum of 4.6 at a water partial pressure of 12.3 kPa.

Original language	English
Pages (from-to)	937-944
Number of pages	8
Journal	Industrial and Engineering Chemistry Research
Volume	44
Issue number	4
DOIs	https://doi.org/10.1021/ie049263i
State	Published - 16 Feb 2005
Externally published	Yes

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title = "Synthesis of defect-free FAU-type zeolite membranes and separation for dry and moist CO2/N2 mixtures",

abstract = "In this paper, the effects of synthesis conditions, including the seeding approach, gel composition, and hydrothermal treatment process, on the quality of porous α-alumina-supported Y-type FAU membranes were studied. Defect-free, pure NaY-type zeolite membranes have been synthesized and investigated for separation of equimolar CO2/N2 mixtures under dry and moist conditions at atmospheric pressure. At room temperature, the CO2 selectivity was about 31.2 for the CO2/ N2 dry gas mixture with a CO2 permeance of 2.1 × 10-8 mol/m2·Pa·s. The addition of water vapor to the feed stream decreased the permeance for both CO2 and N2 in a temperature range of 23-200°C. The existence of water vapor significantly enhanced the CO2 selectivity at 110-200°C but drastically lowered the CO2 selectivity below 80°C. At 200°C, with increasing water partial pressure, the CO2 selectivity increased and then decreased after reaching a maximum of 4.6 at a water partial pressure of 12.3 kPa.",

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AU - Gu, Xuehong

AU - Dong, Junhang

AU - Nenoff, Tina M.

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Y1 - 2005/2/16

N2 - In this paper, the effects of synthesis conditions, including the seeding approach, gel composition, and hydrothermal treatment process, on the quality of porous α-alumina-supported Y-type FAU membranes were studied. Defect-free, pure NaY-type zeolite membranes have been synthesized and investigated for separation of equimolar CO2/N2 mixtures under dry and moist conditions at atmospheric pressure. At room temperature, the CO2 selectivity was about 31.2 for the CO2/ N2 dry gas mixture with a CO2 permeance of 2.1 × 10-8 mol/m2·Pa·s. The addition of water vapor to the feed stream decreased the permeance for both CO2 and N2 in a temperature range of 23-200°C. The existence of water vapor significantly enhanced the CO2 selectivity at 110-200°C but drastically lowered the CO2 selectivity below 80°C. At 200°C, with increasing water partial pressure, the CO2 selectivity increased and then decreased after reaching a maximum of 4.6 at a water partial pressure of 12.3 kPa.

AB - In this paper, the effects of synthesis conditions, including the seeding approach, gel composition, and hydrothermal treatment process, on the quality of porous α-alumina-supported Y-type FAU membranes were studied. Defect-free, pure NaY-type zeolite membranes have been synthesized and investigated for separation of equimolar CO2/N2 mixtures under dry and moist conditions at atmospheric pressure. At room temperature, the CO2 selectivity was about 31.2 for the CO2/ N2 dry gas mixture with a CO2 permeance of 2.1 × 10-8 mol/m2·Pa·s. The addition of water vapor to the feed stream decreased the permeance for both CO2 and N2 in a temperature range of 23-200°C. The existence of water vapor significantly enhanced the CO2 selectivity at 110-200°C but drastically lowered the CO2 selectivity below 80°C. At 200°C, with increasing water partial pressure, the CO2 selectivity increased and then decreased after reaching a maximum of 4.6 at a water partial pressure of 12.3 kPa.

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JO - Industrial and Engineering Chemistry Research

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ER -

Synthesis of defect-free FAU-type zeolite membranes and separation for dry and moist CO₂/N₂ mixtures

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