• A Study on the Removal Efficiency of Heavy Metals in Daenam Mine Agricultural Soil Using Heavy metal Properties by Physical separation
  • ParK, Chan Oh;Hong, Dong-Ho;Lee, Jai-Young;Lee, Young Jae;Lee, Jin-Soo;
  • Institute of Technology Research, korea Resources Corporation;Institute of Technology Research, korea Resources Corporation;Department of Environmental Engineering, The University of Seoul;Department of Earth & Environmental Sciences, Korea University;Institute of Mine Reclamation Technology, Mine Reclamation Corporation;
  • 대남광산 농경지 토양 내 중금속 특성에 따른 물리적 선별 처리효율에 관한 연구
  • 박찬오;홍동호;이재영;이영재;이진수;
  • 한국광물자원공사 기술연구원;한국광물자원공사 기술연구원;서울시립대학교 환경공학과;고려대학교 지구환경과학과;한국광해관리공단 광해기술연구소;
References
  • 1. Alloway, B.J., Jackson, A.P., and Morgan, H., 1990, The accumulation of cadmium by vegetables grown on soils contaminated from a variety of sources, Sci. Total Environ., 91, 223-236.
  •  
  • 2. Falconer, A., 2003, Gravity separation: Old technique/new methods, Phy. Sep. Sci. Eng., 12(1), 31-48.
  •  
  • 3. Charlet, L., Bosbach, D., and Peretyashko, T., 2002, Natural attenuation of TCE, As, Hg linked to the heterogeneous oxidation of Fe(II): an AFM study, Chem. Geol., 190, 303-319.
  •  
  • 4. Cynthia, R. and David, A., 1997, Remediation of Metals-Contaminated Soils and Groundwater, Report of Tech. Evaluation, TE-97-01.
  •  
  • 5. Dermont, G., Bergeron, M., Mercier, G., and Richer, L.M., 2008, Soil washing for metal removal, J. Hazard. Mater., 152, 1-31.
  •  
  • 6. Bradl, H.B., 2004, Adsorption of heavy metal ions on soils and soils constituents, J. Coll. Inter. Scien., 277, 1-18.
  •  
  • 7. Jeong, S.B., Hyun, J.Y., Kim, H.S., Chae, Y.B., and Lee, U.J., 2006, Reduction and Detoxification of the Metallic Mine Tailing by Mineral Processing Technique, Korean Soc. Miner. Ener. Res. Eng., 43(5), 478-485.
  •  
  • 8. Lee, C.H., Kim, Y.J., Lee, S.Y., Park, C.O., Sung, Y.H., Lee, J.Y., Choi, U.K., and Lee, Y.J., 2013, A Study of Physicochemical and Mineralogical Properties of Heavy Metal Contaminated-Soil Particles from the Kangwon and Donghae Mines, J. Miner. Soc. Korea, 26(3), 197-207.
  •  
  • 9. Lu, S.G., Zhu, L., and Yu, J.Y., 2012, Mineral magnetic properties of Chinese paddy soils and its pedogenic implications, Catena, 93, 9-17.
  •  
  • 10. Ministry of Environment, 2009, The research on the actual pollution condition in soil and water nearby abandonded mines, Press release.
  •  
  • 11. Mireco., 2010, The Report of close investigation for Daenam mine.
  •  
  • 12. Park, B.Y., Lee, J.K., Ro, H.M., and Kim, Y.H., 2011, Effects of heavy metal contamination from an abandoned mine on nematode community structure as an indicator of soil ecosystem health, Appl. Soil Ecol., 51, 17-24.
  •  
  • 13. Rikers, R.A., Rem, P., and Dalmijn, W.L., 1998, Improved method for prediction of heavy metal recoveries from soil using high intensity magnetic separation (HIMS), J. Miner. Process, 54, 165-182.
  •  
  • 14. Schmidt, A., Yarnold, R., Hill, M., and Ashmore, M., 2005, Magnetic susceptibility as proxy for heavy metal pollution, J. Geochem. Explor., 85, 109-117.
  •  
  • 15. Singh, M., Sharma, M., and Tobschall, H.J., 2005, Weathering of the Ganga alluvial plain, northern India: implications from fluvial geochemistry of the Gomati River, Appl. Geochem., 20, 1-21.
  •  
  • 16. Tessier, A., Campbell, P.G.C., and Bisson, M., 1979, Sequential extraction procedure for the speciation of particulate trace metals, Anal. Chem., 51(7), 844-850.
  •  
  • 17. Zhang, H., Luo, Y., Makino, T., Wu, L., and Namzyo, M., 2013, The heavy metal partition in size-fractions of the fine particles in agricultural soils contaminated by waste water and smelter dust, J. Hazard. Mater., 248-249, 303-312.
  •  

This Article

  • 2013; 18(5): 46-55

    Published on Oct 31, 2013

  • 10.7857/JSGE.2013.18.5.046
  • Received on Sep 24, 2013
  • Revised on Oct 28, 2013
  • Accepted on Oct 28, 2013

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