Treatment Of Acidic Mine WatersContaining Metals: Past Practices AndNew Approaches

Acid discharges and drainage from mining sites containing high concentrations of metals impact thousands of kilometres of rivers around the world. The conventional approach to acid waters has been active treatment typically using pH adjustment, metal precipitation and sludge disposal. At some sites, a more passive approach has been used, including constructed wetlands, sulphidegenerating systems, or other biological cells where the acid waters passively flow through the treatment media. Great advancements have been made with the most successful of these systems, typically called biochemical reactors (BCRs) which are composed of such material as wood chips, mulch, processed manure, sand, and limestone. The overall result is some acid neutralization and subsequent precipitation of metal sulfides. The systems are not entirely passive, often require large areas, and eventually need replacement. A new approach is to apply the principles of sulphate reduction and precipitation of metal sulfide by injecting liquid neutralizing agents and carbon sources inside the mine workings. This approach has many advantages including source reduction, no waste disposal, and reduction of required space. To test such an approach, bench-scale tests were conducted on three acidic mine waters. The mine waters were added to microcosms containing site soils and inert media (sand/gravel). The pH was adjusted to achieve appropriate microbial conditions and a carbon source (ethanol, antifreeze, beer, ChitoRem, or methanol) was added. Results show that Environmental Impact II 51 www.witpress.com, ISSN 1743-3541 (on-line) WIT Transactions on Ecology and The Environment, Vol 181, © 2014 WIT Press doi:10.2495/EID140051 selected mixtures were capable of 97 to 100 percent reduction of aluminum, 90 to 100 percent reduction of copper, and 81 to 100 percent reduction of lead. Overall testing suggests that in-situ treatment of acidic mine water can be a potentially viable option that would be effective and advantageous.