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Abstract
To provide the basic information about the release of heavy metals from the pyrite tailings of Huangjiagou pyrite mine, the pyrite tailings were investigated through a series of batch experiments under different initial pH of extractant, temperature, liquid-solid (LS) ratio, and soaking time conditions. Moreover, calcium carbonate was added in the pyrite tailings to determine the reduction effect on the release of heavy metals. The results show that Fe, Cr, Cu, Mn, Zn, and Ni were the major heavy metals in the pyrite tailings. Low initial pH and high LS ratio significantly promoted Fe, Cu, Mn, Ni, and Zn release, and high temperature significantly promoted Fe, Cu, Mn, and Ni release. Only small amounts of Cr were detected at low LS ratios. With the increase of soaking time, the released amount of Fe, Cu, Mn, Ni, and Zn increased to the maximum value within 48 h, respectively. After adding calcium carbonate, the released amounts of Fe, Cu, and Zn reduced at least 70.80% within 48 h soaking time. The results indicate that summer and the early soaking stage are the main phases for the release of heavy metals from the pyrite tailings. In the pyrite tailings, Cr is difficult to release. Adding calcium carbonate can effectively reduce the release of Fe, Cu, and Zn.
Highlights
IntroductionThe sulfide-rich tailings can cause the serious heavy metal pollution, and controlling the pollution has become an important issue in the past decades
The results indicate that the released amounts of Fe, Cu, and Zn can be effectively reduced by adding calcium carbonate in the pyrite tailings, and the moderate reduce can be acquired for Mn and Ni
For Zn, the release was significantly promoted by low initial pH and high LS ratio
Summary
The sulfide-rich tailings can cause the serious heavy metal pollution, and controlling the pollution has become an important issue in the past decades. Whatever method is used in practical pollution control in a mine area, the release information of heavy metals of tailings must be, firstly, understood. The reason of this is that the properties of tailings are distinctive in different mines owing to the compositional differences in ore and the diverse processing methods [5,20,21]. Overall, understanding the release information of heavy metals of tailings can effectively guide the practical pollution control
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