Abstract:
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The conditions for the remediation of metal contaminated soils by using the soil-flushing technique are evaluated. A pilot-scale test and a column experiment were carried out in order to evaluate the efficiency of flushing to remove metals from an old mining area that had been heavily contaminated by uncontrolled dumping of base-metal smelting slags. A pilot-scale site (0.9 ha) in the contaminated area was flushed in situ. The volume of water injected and pumped reached approximately 1.2 and 2.3 pore volumes, respectively.
The results of the pilot-scale study showed the removal of Al (43.1–81.1%), Co (24.5–82.4%), Cu (0–55%), Fe (0–84.7%), Mn (66.2–85.8%), Mo (0–51.7%), Ni (0–46.4%) and Zn (0–83.4%), although considerable
differences between control wells were observed. In addition, other metals such as As, Se, Sb, Cd and Pb were mobilized or removed in negligible amounts from the groundwater.
Geochemical modelling of groundwater showed that ferrihydrite was undersaturated in nearly all of the samples, which may explain the mobilization of As, Sb and Se. Also, jarosite, jarosite-Na and melanterite
were undersaturated in most of the sampling wells, which suggests that As may be mobilized when these materials dissolve. Soil-flushing could be used as an effective remediation technique in areas contaminated
by mining and metallurgical activities when the porous media is permeable and the possible kinetic processes related to the contaminants are negligible. |