SEPARATION OF A GAS MIXTURE IN NANOSIZE POROUS MEMBRANES. EFFECT OF ADSORPTION AND SURFACE DIFFUSION

The authors have studied the infl uence of the adsorption and surface diffusion of one component of a binary gas mixture on pore walls on the effect of separation of the gas mixture during its fl ow through a nanosize porous membrane in a free molecular regime. A capillary porous-medium model obtained by the momentum-balance method was taken as a basis for analysis. Expressions have been determined for the separation factor and the concentration jump of the adsorbed component for an assigned pressure difference on the membrane, which make it possible to analyze the infl uence of the initial concentration of the adsorbable component and of the temperature on the separation effect. Calculations have been performed of the concentration jump for a number of commercial gas mixtures (CO₂/H₂, CO/H₂, CH₄/H₂, and N₂/He). It has been shown that taking account of surface diffusion may lead to appreciable variations (of several tens of percent) of the obtained values from Knudsen values of the effect in the absence of adsorption.
The authors have studied the infl uence of the adsorption and surface diffusion of one component of a binary gas mixture on pore walls on the effect of separation of the gas mixture during its fl ow through a nanosize porous membrane in a free molecular regime. A capillary porous-medium model obtained by the momentum-balance method was taken as a basis for analysis. Expressions have been determined for the separation factor and the concentration jump of the adsorbed component for an assigned pressure difference on the membrane, which make it possible to analyze the infl uence of the initial concentration of the adsorbable component and of the temperature on the separation effect. Calculations have been performed of the concentration jump for a number of commercial gas mixtures (CO₂/H₂, CO/H₂, CH₄/H₂, and N₂/He). It has been shown that taking account of surface diffusion may lead to appreciable variations (of several tens of percent) of the obtained values from Knudsen values of the effect in the absence of adsorption.
Author:  V. M. Zhdanov A. A. Stepanenko
Keywords:  nanoporous membranes, Knudsen fl ow, adsorption, surface diffusion, capillary model, separation of a gas mixture, separation factor, concentration jump
Page:  623-631