Abstract
Using alternative materials such as residual products from other industries to mitigate the negative effects of acid rock drainage would simultaneously solve two environmental problems. The main residual product still landfilled by sulphate paper mills is the alkaline material green liquor dregs (GLD). A physical, mineralogical and chemical characterization of four batches of GLD was carried out to evaluate the potential to use it as a sealing layer in the construction of dry covers on sulphide-bearing mine waste. GLD has relatively low hydraulic conductivity (10−8 to 10−9 m/s), a high water retention capacity (WRC) and small particle size. Whilst the chemical and mineralogical composition varied between the different batches, these variations were not reflected in properties such as hydraulic conductivity and WRC. Due to relatively low trace element concentrations, leaching of contaminants from the GLD is not a concern for the environment. However, GLD is a sticky material, difficult to apply on mine waste deposits and the shear strength is insufficient for engineering applications. Therefore, improving the mechanical properties is necessary. In addition, GLD has a high buffering capacity indicating that it could act as an alkaline barrier. Once engineering technicalities have been overcome, the long-term effectiveness of GLD should be studied, especially the effect of aging and how the sealing layer would be engineered in respect to topography and climatic conditions.
Highlights
IntroductionThe traditional strategy to reduce acid rock drainage (ARD) generation is to prevent oxygen from reaching the waste to decelerate oxidation
The major potential long-term environmental effect of mining is the formation of acid rock drainage (ARD) in sulphide-bearing mine waste, which can last for hundreds of years in a specific deposit [1,2].The traditional strategy to reduce ARD generation is to prevent oxygen from reaching the waste to decelerate oxidation
The X-ray diffraction analysis (XRD) analyses showed that the crystalline phase of the green liquor dregs (GLD) mainly is composed of calcite (CaCO3)
Summary
The traditional strategy to reduce ARD generation is to prevent oxygen from reaching the waste to decelerate oxidation. This can be achieved by applying a dry cover or a water cover [1,2]. The sealing layer material in a dry cover should have the ability to minimize oxygen diffusion and reduce water percolation into the waste. Using a material with low hydraulic conductivity minimizes water percolation, oxygen transport and the risk of ARD formation. This, together with the fact that the O2 concentration in water is ~20,000 times lower than in air, explains why oxygen transport is so strongly reduced in saturated sealing layers or through a water cover [1,2]
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