Ding, L. P. ; Bhatia, S. K. (2003) Analysis of multicomponent adsorption kinetics on activated carbon AIChE Journal, 49 (4). pp. 883-895. ISSN 0001-1541
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Official URL: http://www3.interscience.wiley.com/journal/1080658...
Related URL: http://dx.doi.org/10.1002/aic.690490408
Abstract
An integrated mathematical model for the kinetics of multicomponent adsorption on microporous carbon was developed. Transport in this bidisperse solid is represented by balance equations in the macropore and micropore phases, in which gas-phase diffusion dominates the mass transfer in the macropores, with the phenomenological diffusivities represented by the generalized Maxwell-Stefan (GMS) formulation. Viscous flow also contributes to the macropore fluxes and is included in the MS expressions. Diffusion of the adsorbed phase controls the mass transfer in the micropore phase, which is also described in a similar way by the MS method. The adsorption isotherms are represented by a new heterogeneous modified vacancy solution theory formulation of adsorption, which has proved to be a robust method for adsorption on activated carbons. The model is applied to the coadsorption and codesorption of C2H6 and C3H8 on Ajax and Norit carbon, as well as the displacement on Ajax carbon. The effect of the viscous flow in the macropore phase is not significant for the cases studied. The model accurately predicts the overshoot behavior and rollup of C2H6 during coadsorption. The prediction for the heavier compound C3H8 is always satisfactory, though at higher C3H8 mole fraction, the overshoot extent of C2H6 is overpredicted, possibly due to neglect of heat effects.
Item Type: | Article |
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Source: | Copyright of this article belongs to American Institute of Chemical Engineers. |
ID Code: | 2813 |
Deposited On: | 08 Oct 2010 12:40 |
Last Modified: | 17 May 2011 06:23 |
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