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Preface
Authors:Chon  Hyo-Taek  Kim   Kyoung-Woong  Lee   Keun-Young
Affiliation:1.School of Environmental Science and Engineering,Gwangju Institute of Science and Technology (GIST),Gwangju,Republic of Korea;2.Department of Chemistry & Geochemistry,Colorado School of Mines,Golden,USA;3.Department of Earth and Environmental Sciences and Research Institute of Natural Science,Gyeongsang National University,Jinju,Republic of Korea;4.Research and Development Center,Halla Engineering and Construction Corporation,Seoul,Republic of Korea
Abstract:The combination of bioremediation and electrokinetics, termed bioelectrokinetics, has been studied constantly to enhance the removal of organic and inorganic contaminants from soil. The use of the bioleaching process originating from Fe- and/or S-oxidizing bacteria may be a feasible technology for the remediation of heavy metal–contaminated soils. In this study, the bioleaching process driven by injection of S-oxidizing bacteria, Acidithiobacillus thiooxidans, was evaluated as a pre-treatment step. The bioleaching process was sequentially integrated with the electrokinetic soil process, and the final removal efficiency of the combined process was compared with those of individual processes. Tailing soil, heavily contaminated with Cd, Cu, Pb, Zn, Co, and As, was collected from an abandoned mine area in Korea. The results of geochemical studies supported that this tailing soil contains the reduced forms of sulfur that can be an energy source for A. thiooxidans. From the result of the combined process, we could conclude that the bioleaching process might be a good pre-treatment step to mobilize heavy metals in tailing soil. Additionally, the electrokinetic process can be an effective technology for the removal of heavy metals from tailing soil. For the sake of generalizing the proposed bioelectrokinetic process, however, the site-specific differences in soil should be taken into account in future studies.
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