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On the Equivalence of Two Conceptual Models for Describing Ion Exchange During Transport Through an Aggregated Oxisol
Author(s) -
NkediKizza P.,
Biggar J. W.,
Selim H. M.,
Van Genuchten M. Th.,
Wierenga P. J.,
Davidson J. M.,
Nielsen D. R.
Publication year - 1984
Publication title -
water resources research
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.863
H-Index - 217
eISSN - 1944-7973
pISSN - 0043-1397
DOI - 10.1029/wr020i008p01123
Subject(s) - oxisol , equivalence (formal languages) , ion exchange , diffusion , thermodynamics , chemistry , non equilibrium thermodynamics , ion , mathematics , physics , soil science , geology , soil water , pure mathematics , organic chemistry
Breakthrough curves (BTCs) of the cation 45 Ca 2+ , an anion 36 Cl − , and 3 H 2 O were measured during miscible displacement through water‐saturated soil columns packed with aggregates of an Oxisol. Two conceptual models were used to simulate the observed asymmetry and tailing in the BTCs caused by an apparent nonequilibrium situation in the porous medium. In both models the exchange process on one type of site was assumed to be instantaneous while the rate of isotopic exchange on another type of site was assumed to be either a diffusion‐controlled process (model 1) or a first‐order reversible kinetic process (model 2). Isotopic exchange in both models was described with a linear isotherm. It is shown that the two models are mathematically equivalent with respect to the derived BTCs.