An experimental study of diffusion and convection of multicomponent gases through catalytic and non-catalytic membranes

J.W. Veldsink; G.F. Versteeg; W.P.M. van Swaaij

doi:10.1016/0376-7388(94)00087-5

An experimental study of diffusion and convection of multicomponent gases through catalytic and non-catalytic membranes

J.W. Veldsink, G.F. Versteeg, W.P.M. van Swaaij

Engineering and Technology Institute Groningen

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Abstract

Diffusion of binary and ternary gases through catalytic and non-catalytic membranes has been studied experimentally at atmospheric pressure. These experiments were conducted in a modified Wicke-Kallenbach diffusion cell consisting of two continuously stirred gas volumes separated by a membrane. The equipment was suitable to measure fluxes of components through the membrane in the absence of gas-to-membrane mass transfer limitations. Transport through a porous membrane has been measured and compared with the results of the dusty-gas model, which has been used to predict transport through a membrane. With independently determined input parameters this model turned out to be able to predict the transport of a multicomponent gas mixture through a membrane within a few percent (

Original language	English
Pages (from-to)	275-291
Number of pages	17
Journal	Journal of Membrane Science
Volume	92
Issue number	3
DOIs	https://doi.org/10.1016/0376-7388(94)00087-5
Publication status	Published - 1994

Keywords

Membrane reactor
Multicomponent transport
Diffusion and convection

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title = "An experimental study of diffusion and convection of multicomponent gases through catalytic and non-catalytic membranes",

abstract = "Diffusion of binary and ternary gases through catalytic and non-catalytic membranes has been studied experimentally at atmospheric pressure. These experiments were conducted in a modified Wicke-Kallenbach diffusion cell consisting of two continuously stirred gas volumes separated by a membrane. The equipment was suitable to measure fluxes of components through the membrane in the absence of gas-to-membrane mass transfer limitations. Transport through a porous membrane has been measured and compared with the results of the dusty-gas model, which has been used to predict transport through a membrane. With independently determined input parameters this model turned out to be able to predict the transport of a multicomponent gas mixture through a membrane within a few percent (",

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author = "J.W. Veldsink and G.F. Versteeg and Swaaij, {W.P.M. van}",

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doi = "10.1016/0376-7388(94)00087-5",

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T1 - An experimental study of diffusion and convection of multicomponent gases through catalytic and non-catalytic membranes

AU - Veldsink, J.W.

AU - Versteeg, G.F.

AU - Swaaij, W.P.M. van

N1 - Relation: http://www.rug.nl/fmns-research/itm/index Rights: University of Groningen, Research Institute of Technology and Management

PY - 1994

Y1 - 1994

N2 - Diffusion of binary and ternary gases through catalytic and non-catalytic membranes has been studied experimentally at atmospheric pressure. These experiments were conducted in a modified Wicke-Kallenbach diffusion cell consisting of two continuously stirred gas volumes separated by a membrane. The equipment was suitable to measure fluxes of components through the membrane in the absence of gas-to-membrane mass transfer limitations. Transport through a porous membrane has been measured and compared with the results of the dusty-gas model, which has been used to predict transport through a membrane. With independently determined input parameters this model turned out to be able to predict the transport of a multicomponent gas mixture through a membrane within a few percent (

AB - Diffusion of binary and ternary gases through catalytic and non-catalytic membranes has been studied experimentally at atmospheric pressure. These experiments were conducted in a modified Wicke-Kallenbach diffusion cell consisting of two continuously stirred gas volumes separated by a membrane. The equipment was suitable to measure fluxes of components through the membrane in the absence of gas-to-membrane mass transfer limitations. Transport through a porous membrane has been measured and compared with the results of the dusty-gas model, which has been used to predict transport through a membrane. With independently determined input parameters this model turned out to be able to predict the transport of a multicomponent gas mixture through a membrane within a few percent (

KW - Membrane reactor

KW - Multicomponent transport

KW - Diffusion and convection

U2 - 10.1016/0376-7388(94)00087-5

DO - 10.1016/0376-7388(94)00087-5

M3 - Article

SN - 0376-7388

VL - 92

SP - 275

EP - 291

JO - Journal of Membrane Science

JF - Journal of Membrane Science

IS - 3

ER -

An experimental study of diffusion and convection of multicomponent gases through catalytic and non-catalytic membranes

Abstract

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