MODELING AND FIELD-MEASUREMENTS OF WATER PERCOLATION THROUGH AN EXPERIMENTAL SOIL COVER ON MINE TAILINGS

A composite soil cover constructed on acid-producing tailings was eval uated for its ability to retain a high degree of water saturation and low hydraulic conductivity. The cover consisted of a 60 cm thick, comp acted, nearly saturated, varved clay placed between two sand layers, e ach 30 cm thick. A final 10 cm thick gravel layer was placed on the up per sand layer to minimize erosion. The Hydrologic Evaluation of Landf ill Performance (HELP) model and a finite-element flow model (SEEP/W) were applied, and the results corroborated with field measurements of percolation and soil-water content. Modelling predictions indicate tha t 4% of precipitation will percolate through the cover and that the in termediate clay layer will retain a high degree of saturation after a 20 year simulation. Four years of field monitoring also indicate that 4% of precipitation percolates through the cover and that the clay ret ains its high saturation. These results suggest that a properly design ed and constructed soil cover can be effective in reducing acid produc tion in reactive mine tailings.