Development of a multicomponent mass transport model for predicting CO2 separation behavior from its mixture with natural gas and hydrogen using zeolite membranes

CO2 removal from sour natural gas for the purpose of gas sweetening and from synthesis gas to obtain pure hydrogen is an important process in gas and oil refining industries. In this study, modeling of CO2 separation from natural gas and synthesize gas by zeolite membrane has been investigated. This...

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Bibliographic Details
Published in:Desalination and water treatment 2011-10, Vol.34 (1-3), p.190-196
Main Authors: Demochali, M. Mohammadi, Ghoreyshi, A.A., Najafpour, G.
Format: Article
Language:English
Subjects:
Adsorption
Applied sciences
Carbon dioxide
Carbon dioxide removal
CO2
Components
Dye dispersion
Exact sciences and technology
Experimental data
Fluxes
Hydrogen
Industry
Mass transport
Mathematical models
Maxell-Stefan
Membranes
Modeling
Modelling
Natural gas
Natural gas industry
Petroleum refining
Pollution
Removal
Selectivity
Separation
Synthesis gas
Transport
Water treatment and pollution
Zeolite membrane
Zeolites
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Summary:CO2 removal from sour natural gas for the purpose of gas sweetening and from synthesis gas to obtain pure hydrogen is an important process in gas and oil refining industries. In this study, modeling of CO2 separation from natural gas and synthesize gas by zeolite membrane has been investigated. This model is based on adsorption–diffusion model which uses the modified Maxwell–Stefan formulation for expression of fluxes equations. This model is capable to predict mixture fluxes and mixture separation selectivity using only pure component adsorption and permeation experimental data. The model developed in this study is also a full coupled model considering correctly the kinetic and thermodynamic contribution in component fluxes. The results of modeling indicated that the thermodynamic aspect has a major role to transport through the zeolite membranes and can not be ignored for both components, while the kinetic aspect has a major contribution in transport of strongly adsorbed species (CO2). Finally the results of fluxes and separation selectivity estimated by the model showed a good agreement with experimental data.
ISSN:1944-3986
1944-3994
1944-3986
DOI:10.5004/dwt.2011.2798