Chemie Ingenieur Technik

2010

DOI: 10.1002/cite.201000008

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Investigation of high pressure permeation behaviour of single gases through microporous ceramic membranes Part 1. Measurement method and influence of adsorption on permeation

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Ompe Aimé Mudimu

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et al.

Abstract: Investigation of high pressure permeation behaviour of single gases through microporous ceramic membranes Part 1. Measurement method and influence of adsorption on permeationThe permeation behaviour of single gases (He, H 2 , N 2 , Ar, CH 4 , CO 2 ) through meso (ZrO 2 ) and micro (TiO 2 ) porous ceramic membranes was measured within a pressure range of 1 to 10 MPa and a temperature range of 293 to 373 K, using steady state and dynamic experimental methods. The TiO 2 -membrane shows by adsorption affected perm… Show more

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“…Trotz der viel versprechenden Eigenschaften dieser Membranen mangelt es an experimentellen Ergebnissen und am genauen Verständnis des stattfindenden Stofftransportmechanismus. Aus diesem Grund wurden Permeationsmessungen reiner Gase (He, H 2 , Ar, N 2 , CH 4 , CO 2 ) im Druckbereich von 1 bis 10 MPa und im Temperaturbereich von 293 bis 373 K mit zwei asymmetrischen, porö-sen keramischen Membranen durchgeführt [2]. Hierfür wurden eine mesoporöse ZrO 2 -Membran mit einem Porendurchmesser von 3 nm und eine mikroporöse TiO 2 -Membran mit einem Porendurchmesser von 0,9 nm eingesetzt.…”

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Investigation of high pressure permeation behaviour of single gases through microporous ceramic membranes Part 2. Analysis of transport mechanisms

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et al. 2010

Chemie Ingenieur Technik

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Investigation of high pressure permeation behaviour of single gases through microporous ceramic membranes Part 2. Analysis of transport mechanismsThe determined behaviour of a TiO 2 -membrane with an effective pore diameter below 1 nm cannot be described comprehensively by the transport mechanisms known at present. The

“…Trotz der viel versprechenden Eigenschaften dieser Membranen mangelt es an experimentellen Ergebnissen und am genauen Verständnis des stattfindenden Stofftransportmechanismus. Aus diesem Grund wurden Permeationsmessungen reiner Gase (He, H 2 , Ar, N 2 , CH 4 , CO 2 ) im Druckbereich von 1 bis 10 MPa und im Temperaturbereich von 293 bis 373 K mit zwei asymmetrischen, porö-sen keramischen Membranen durchgeführt [2]. Hierfür wurden eine mesoporöse ZrO 2 -Membran mit einem Porendurchmesser von 3 nm und eine mikroporöse TiO 2 -Membran mit einem Porendurchmesser von 0,9 nm eingesetzt.…”

Section: Einführungunclassified

Investigation of high pressure permeation behaviour of single gases through microporous ceramic membranes Part 2. Analysis of transport mechanisms

¹

,

²

,

³

et al. 2010

Chemie Ingenieur Technik

Self Cite

View full text Add to dashboard Cite

Investigation of high pressure permeation behaviour of single gases through microporous ceramic membranes Part 2. Analysis of transport mechanismsThe determined behaviour of a TiO 2 -membrane with an effective pore diameter below 1 nm cannot be described comprehensively by the transport mechanisms known at present. The

Sorption effects of co-solvents and dissolved organic compounds on supercritical CO2 permeation through a micro-porous TiO2-membrane

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2012

The Journal of Supercritical Fluids

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