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Geochemical transport modelling of drainage from experimental mine tailings cells covered by capillary barriers
Authors:J Molson  M Aubertin  B Bussière  M Benzaazoua
Institution:1. Department of Civil, Geological and Mining Engineering, École Polytechnique, Montréal, C.P. 6079 succ. Centre-ville, Montréal, Québec, Canada H3C 3A7;2. Department of Applied Sciences, Université du Québec en Abitibi-Témiscamingue, 445 Université Blvd, Rouyn-Noranda, Québec, Canada J9X 5E4;3. Industrial NSERC-Polytechnique-UQAT Chair, Environment and Mine Wastes Management, Canada
Abstract:The use of covers with capillary barrier effects (CCBEs) for reducing acid mine drainage (AMD) from sulphidic mine tailings is simulated using the MIN3P finite volume model for coupled groundwater flow, O2 diffusion and multi-component reactive transport. The model is applied to simulate five pilot-scale in situ test cells containing reactive tailings from the Manitou mine site, Val d’Or, Que., Canada. Four of the cells were constructed with CCBEs over the tailings, while the fifth tailings cell was left uncovered. Observed and simulated discharge from the base of each cell showed that the capillary barrier covers significantly reduced sulphide oxidation and AMD. Compared to acidic discharge from the uncovered cell, discharge from the four CCBE-covered cells had neutral pH levels and 1–7 orders of magnitude lower concentrations of SO4, Fe, Zn, Cu and Al. The simulations showed that the moisture retaining layer of the CCBEs reduced AMD by inhibiting O2 diffusion into the underlying reactive wastes. Provided the moisture-retention layer of the CCBE remains close to saturation, its thickness had a relatively minor effect. Under such near-saturated conditions, O2 availability is limited by its diffusion rate through the bulk porous medium and not by the diffusion rate through the oxidized grain shells. The model is providing important new insights for comparing design alternatives for reducing or controlling AMD.
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