Theory for reactive solute transport through clay membrane barriers |
| |
Authors: | Malusis Michael A Shackelford Charles D |
| |
Institution: | GeoTrans, Inc., 9101 Harlan Street, Suite 210, Westminster, CO 80031, USA. mmalusis@geotransinc.com |
| |
Abstract: | The theoretical development for one-dimensional, coupled migration of solutes with different ionic mobilities through clay soils that behave as ion-restrictive membranes, referred to as clay membrane barriers (CMBs), is presented. The transport formulation is based on principles of irreversible thermodynamics and accounts explicitly for coupling effects of hyperfiltration (ultrafiltration) and chemico-osmotic counter-advection associated with clay membrane behavior in the absence of electrical current. Since, by definition, no solute can enter a "perfect" or "ideal" membrane, the concept of an implicit coupling effect, such that the effective salt-diffusion coefficient, Ds* approaches zero as the chemico-osmotic efficiency coefficient, omega approaches unity is introduced. The theoretical development also illustrates that, even in the absence of membrane behavior, traditional advective-dispersive transport theory based on a constant value of Ds* for the solutes may not be appropriate for simulating transient transport in reactive (ion exchanging) systems. This potential limitation is illustrated through simulations for solute mass flux involving the migration of a binary salt solution (KCl) through a clay barrier with exchange sites saturated with a single exchangeable cation (e.g., Na+) that enters the pore solution upon ion exchange with the salt cation (K+). |
| |
Keywords: | Chemico-osmotic efficiency Clays Coupled solute transport Ion exchange Clay membranes Tortuosity |
本文献已被 ScienceDirect PubMed 等数据库收录! |
|