Abstract
Surface paste tailings’ disposal has emerged recently as an optimal and efficient method to favor tailings’ self-containment after being deposited into dams. This disposal method can improve the reuse of water and reduce the generation of acid mine drainage (AMD) and the release of leachates (e.g., acid and heavy metals). However, the implications of chemical factors or mixed-water chemistry in the stability of paste tailings over time are not clear. In this work, we evaluated the release of sulfate from tailing samples and the role of sulfate as a critical factor in the tailings’ strength, consistency, and stability. Our results showed that the release of acid runoff with high sulfate load from the tailings is negligible. Leaching tests were performed for 180 days and did not show a significant release of sulfate, heavy metals, or acid waters. However, the presence of sulfate salts derived from the binders used in the pretreatment of the paste tailings shows an impact on the tailings’ consistency. Undrained triaxial monotonic compression tests revealed low effective cohesion forces in the tailings samples. In addition, it was observed that, in tailings slurries prepared with varying concentrations of sulfate (0, 500, and 1000 mg/L), the slump test value dropped Δ−55% when the sulfate concentration increased from 0 to 1000 mg/L. These results support the idea that the presence of sulfate within the tailings could be relevant for the paste consistency after storage. This knowledge will contribute to a better understanding of the critical chemical factors that affect the stability of paste tailings over time.
Highlights
Tailings are mineral wastes of low economic value that result from the extraction and enrichment processes of certain/specific elements in mining
The geochemical behavior of paste tailing was evaluated by using humidity cell tests
The results showed that paste tailings samples do not release acid leachates, because the pH
Summary
Tailings are mineral wastes of low economic value that result from the extraction and enrichment processes of certain/specific elements in mining. The management of large volumes of tailings derived from mining operations has long-term economic, social, and environmental impacts [1]. For this reason, the proper disposal of these wastes is a great challenge for the mining industry around the world. The proper disposal of these wastes is a great challenge for the mining industry around the world This is a complex task because tailings have chemically reactive components, such as sulfide minerals, coagulants, and/or flocculants, that can alter the physical and mechanical properties of the tailings as well as their physical/chemical stability over time, which may trigger the release of dangerous flows and serious environmental problems. The use of more consolidated tailings based on low viscosity fluids has been explored [3,4]
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