Numerical simulation of advective-dispersive multisolute transport with sorption, ion exchange and equilibrium chemistry
A model was developed that can simulate the effect of certain chemical and sorption reactions simultaneously among solutes involved in advective-dispersive transport through porous media. The model is based on a methodology that utilizes physical-chemical relationships in the development of the basic solute mass-balance equations; however, the form of these equations allows their solution to be obtained by methods that do not depend on the chemical processes. The chemical environment is governed by the condition of local chemical equilibrium, and may be defined either by the linear sorption of a single species and two soluble complexation reactions which also involve that species, or binary ion exchange and one complexation reaction involving a common ion. Partial differential equations that describe solute mass balance entirely in the liquid phase are developed for each tenad (a chemical entity whose total mass is independent of the reaction process) in terms of their total dissolved concentration. These equations are solved numerically in two dimensions through the modification of an existing groundwater flow/transport computer code. (Author 's abstract)
Citation Information
Publication Year | 1986 |
---|---|
Title | Numerical simulation of advective-dispersive multisolute transport with sorption, ion exchange and equilibrium chemistry |
DOI | 10.3133/wri864022 |
Authors | F.M. Lewis, C.I. Voss, Jacob Rubin |
Publication Type | Report |
Publication Subtype | USGS Numbered Series |
Series Title | Water-Resources Investigations Report |
Series Number | 86-4022 |
Index ID | wri864022 |
Record Source | USGS Publications Warehouse |