Multi-component reactive transport modeling of natural attenuation of an acid groundwater plume at a uranium mill tailings site

摘要

Natural attenuation of an acidic plume in the aquifer underneath a uranium mill tailings pond in Wyoming, USA was simulated using the multi--component reactive transport code PHREEQc. A one-dimensional model was constructed for the site and the model included advective- dispersive transport, aqueous speciation of 11 components, and precipitation--dissolution of six minerals. Transport simulation was performed for a reclamation scenario in which the source of acidic seepage will be terminated after 5 years and the plume will then be flushed by uncontaminated upgradient groundwater. Simulations show that successive pH buffer reactions with calcite, Al(OH)_3(a), and Fe(OH)_3(a) create distinct geochemical zones and most reactions occur at the boundaries of geochemical zones. The complex interplay of physical transport processes and chemical reactions produce multiple concentration waves. For SO_4~2- transport, the concentration waves are related to advection--dispersion, and gypsum precipitation and dissolution. Wave speeds from numerical simulations compare well to an analytical solution for wave propagation.