Sorption kinetics and time-lag theory. Part 1.—Constant diffusion coefficient
- 1 January 1978
- journal article
- research article
- Published by Royal Society of Chemistry (RSC) in Journal of the Chemical Society, Faraday Transactions 2: Molecular and Chemical Physics
- Vol. 74, 40-56
- https://doi.org/10.1039/f29787400040
Abstract
The time-lag concept has been applied to sorption kinetics so as to provide an alternative procedure for obtaining diffusion coefficients D, in systems where D is a constant. From the graph of fractional approach to equilibrium, η(t), [0 η(t) < 1] against tν(ν > 0), the quantity I [graphic omitted] η(t) d(tν)(obtained as the area beneath the curve) may be found as a function of tν. For large t the curve of I against tν approaches a linear asymptote which intersects the axis of tν to give a time-lag, Lν, where Lν= [graphic omitted] [1 –η(t)]d(tν). Explicit equations for Lν have been obtained and investigated for various geometries of the diffusion media. Those for ν=½ and ν= 1 in particular often lead to simple relations from which D can be evaluated. Both constant pressure and constant volume sorption kinetics have been considered, in the latter instance when Henry's law governs the sorption isotherm.Keywords
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