Abstract
Electrokinetic process for remediation of a shooting-range site was evaluated in this study. By field operation for 100 days, the newly designed electrokinetic system was evaluated for process stability, performance, and efficiency. The field site of this study was an abandoned military shooting range located in the Civilian Control Line of South Korea. The target area, only, was heavily contaminated by Pb and Cu to a depth of 0.5 m. After dry-sieving of the field soil to separate particulate Pb, two cells in a hexagonal (two-dimensional) arrangement, including ten anodes outside the cell and two cathodes in the middle, were prepared. The pH of each electrolyte was adjusted by use of concentrated HNO3, resulting in acid-enhanced electrokinetics. The monitoring results indicated that overall removal of heavy metals (Pb, Cu) was achieved, and that both heavy metals were removed from outside the cell. The average final efficiency of removal of Pb and Cu was 39.5 ± 35 and 63.8 ± 12%, respectively. Although the feasibility of this system was confirmed, for commercialization of the process confirmed drawbacks must be improved by further study.
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Acar, Y. B., & Alshawabkeh, A. N. (1993). Principles of electrokinetic remediation. Environmental Science and Technology, 27, 2638–2647.
Kim, S. O., Kim, K. W., & Stüben, D. (2002). Evaluation of electrokinetic removal of heavy metals from tailing soils. Journal of Environmental Engineering, 128, 705–715.
Kim, K. W., Lee, K. Y., & Kim, S. O. (2009). Electrokinetic remediation of mixed metal contaminants. In K. R. Reddy & C. Cameselle (Eds.), Electrochemical remediation technologies for pulluted soils, sediments and groundwater (pp. 287–313). New Jersey: Wiley.
Korea Environmental Industry & Technology Institute. (2007). Soil restoration technology contaminated by heavy metals using pulse electrokinetic technology. New Excellent Technology (NET) Nr. 195.
Lageman, R. (1993). Electroreclamation: Applications in the Netherlands. Environmental Science and Technology, 27, 2648–2650.
Lee, K. Y., Yoon, I. H., Lee, B. T., Kim, S. O., & Kim, K. W. (2009). A novel combination of anaerobic bioleaching and electrokinetics for arsenic removal from mine tailing soil. Environmental Science and Technology, 43, 9354–9360.
Ministry of Environment in Republic of Korea. (2005). The development of hybrid electrokinetic remediation technique using solar energy on shooting range soils contaminated by heavy metals. The final report of Restoration and Management technology for urban and industrial areas.
Ribeiro, A. B., & Rodríguez-Maroto, J. M. (2006). Electroremediation of heavy metal-contaminated soils—Processes and applications. In M. N. V. Prasad, K. S. Sajwan, & R. Naidu (Eds.), Trace elements in the environment: Biogeochemistry, biotechnology, and bioremediation (pp. 325–340). Boca Raton, FL: CRC Talor & Francis.
Ure, A. M. (1995). Method of analysis for heavy metals in soils. In B. J. Alloway (Ed.), Heavy metal in soils (2nd ed., pp. 55–68). Glasgow: Chapman & Hall.
US Environmental Protection Agency. (1997). Resource guide for electrokinetics laboratory and field processes applicable to radioactive and hazardous mixed wastes in soil and groundwater from 1992 to 1997. EPA 402-R-97-006.
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This work was supported by Korea Ministry of Environment as "The GAIA Project" and by nuclear R&D Project funded by the Korea Government (MEST).
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Lee, KY., Kim, HA., Lee, WC. et al. Ex-situ field application of electrokinetics for remediation of shooting-range soil. Environ Geochem Health 34 (Suppl 1), 151–159 (2012). https://doi.org/10.1007/s10653-011-9408-0
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DOI: https://doi.org/10.1007/s10653-011-9408-0