Gusev and Suter calculation of the diffusion coefficients of light gases in Silicalite-1 membrane and silica sodalite zeolite
Articolo
Data di Pubblicazione:
2004
Abstract:
Transition-state theory (TST) as implemented by Gusev and Suter was applied to calculate the zero-loading-diffusion coefficients
of 12 gases (He, Ne, Ar, Xe, H2, N2, O2, CO2, SF6, CH4, CF4, and i-C4H10) in two different zeolites, silicalite-1
and silica-sodalite. Gusev-Suter (GS) model was and is widely and successfully used for polymeric matrixes. Therefore, the
reliability of this method was studied for gas diffusion in silicalite-1 and silica-sodalite using CVFF aug and CVFF force fields
and two simulation cells. The results were compared with diffusion coefficients used to reproduce the permeance in a silicalite-1
membrane. Model limits were also tested comparing the H2, He and Ne diffusion in silica-sodalite with previous calculations
of classical and quantum TST. Gusev-Suter method systematically underestimates the average diffusion coefficients of the
considered gases; underestimation was less marked for species larger than methane. The ratio between Dx and Dy components
in silicalite-1 was found near one differently from the expected result. The diffusion coefficients obtained using Gusev-Suter
approach in silicalite-1 and silica-sodalite can be improved with an appropriate average displacements definition, set in this work
equal to 0. Concerning the anisotropy diffusion in silicalite-1, this work shows that correlated jumps in a Gusev-Suter procedure
would also be considered. Gusev-Suter computational time for diffusivity estimation of Xe, CF4, CO2 and SF6 is much shorter
than the corresponding molecular dynamics (MD) simulation time.
of 12 gases (He, Ne, Ar, Xe, H2, N2, O2, CO2, SF6, CH4, CF4, and i-C4H10) in two different zeolites, silicalite-1
and silica-sodalite. Gusev-Suter (GS) model was and is widely and successfully used for polymeric matrixes. Therefore, the
reliability of this method was studied for gas diffusion in silicalite-1 and silica-sodalite using CVFF aug and CVFF force fields
and two simulation cells. The results were compared with diffusion coefficients used to reproduce the permeance in a silicalite-1
membrane. Model limits were also tested comparing the H2, He and Ne diffusion in silica-sodalite with previous calculations
of classical and quantum TST. Gusev-Suter method systematically underestimates the average diffusion coefficients of the
considered gases; underestimation was less marked for species larger than methane. The ratio between Dx and Dy components
in silicalite-1 was found near one differently from the expected result. The diffusion coefficients obtained using Gusev-Suter
approach in silicalite-1 and silica-sodalite can be improved with an appropriate average displacements definition, set in this work
equal to 0. Concerning the anisotropy diffusion in silicalite-1, this work shows that correlated jumps in a Gusev-Suter procedure
would also be considered. Gusev-Suter computational time for diffusivity estimation of Xe, CF4, CO2 and SF6 is much shorter
than the corresponding molecular dynamics (MD) simulation time.
Tipologia CRIS:
01.01 Articolo in rivista
Keywords:
Silica-sodalite zeolite; Diffusion coefficients; Transition-state theory; Modelling
Elenco autori:
Bernardo, Paola; Drioli, Enrico; Barbieri, Giuseppe; DE LUCA, Giorgio
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