• Development of Control Technology for Acid Mine Drainage by Coating on the Surface of Pyrite using Chemicals
  • Ji, Min-Kyu;Yoon, Hyun-Sik;Ji, Eung-Do;Lee, Woo-Ram;Park, Young-Tae;Yang, Jung-Seok;Jeon, Byong-Hun;Shim, Yon-Sik;Kang, Man-Hee;Choi, Jae-Young;
  • Natural Products Center, KIST-Gangneung;Natural Products Center, KIST-Gangneung;Natural Products Center, KIST-Gangneung;Natural Products Center, KIST-Gangneung;Natural Products Center, KIST-Gangneung;Natural Products Center, KIST-Gangneung;Department of Environmental Engineering, Yonsei University;Mine Reclamation Corporation;Mine Reclamation Corporation;Natural Products Center, KIST-Gangneung;
  • 산성광산배수의 발생저감을 위한 황철석 표면의 피막형성 기술개발
  • 지민규;윤현식;지은도;이우람;박영태;양중석;전병훈;심연식;강만희;최재영;
  • 한국과학기술연구원;한국과학기술연구원;한국과학기술연구원;한국과학기술연구원;한국과학기술연구원;한국과학기술연구원;연세대학교 환경공학부;한국광해관리공단;한국광해관리공단;한국과학기술연구원;
References
  • 1. 대한광업진흥공사, 1990, 한국의 석탄광(上), p. 410.
  •  
  • 2. 박권규, 박인화, 황세호, 신제현, 박윤성, 2006, 폐광산 지역 산성 광산배수 유출탐지를 위한 지구물리탐사: 부산 임기광산, 한국지구시스템공학회지, 43(1), 34-43.
  •  
  • 3. 부산광역시 보건환경연구원보, 2007, 17(2).
  •  
  • 4. 이규호, 김재곤, 이진수, 전철민, 박삼규, 김탁현, 고경석, 김통권, 2005, 건설현장 절취사면의 산성암반배수 발생특성과 잠재적 산발생능력 평가, 자원환경지질, 38(1), 91-99.
  •  
  • 5. 이규호, 김재곤, 김탁현, 이진수, 2006, 산성배수 발생저감을 위한 황철석 표면의 철인산염 피막형성연구, 자원환경지질, 39(1), 75-82.
  •  
  • 6. 염승준, 윤성택, 김주환, 박맹언, 2002, 동래 납석광산 산성광석 배수의 중화실험: 중금속 거동 특성 규명, 한국지하수토양환경학회지, 7(4), 69-76.
  •  
  • 7. 정영욱, 2004, 석탄광의 광산배수처리기술 현황 및 전망, 자원환경지질, 37(1), 107-111.
  •  
  • 8. 최선규, 박상준, 이평구, 김창성, 2004, 한반도 광상 성인유형에 따른 환경특성, 자원환경지질, 37(1), 1-19.
  •  
  • 9. 환경부, 2007, 전국지역별 산성물질 연중 강하량 분포파악 (보도자료).
  •  
  • 10. 한국광해관리공단, 2006, 옥동광산 광미 및 침출수 처리방안 연구, 광해방지사업단, p. 232.
  •  
  • 11. 한국지질자원연구원, 2007, 도로건설 절취사면의 산성배수 발생 저감을 위한 피막형성기술개발, 건설기술혁신 최종보고서, p. 79.
  •  
  • 12. 한국광해관리공단, 2008, Assessment of Waters and Sediments Impacted by Acid Rock Drainage at the Young Dong Coal Mine Site, South Korea, Final Report-Part A.
  •  
  • 13. 한국광해관리공단, 2008, 일광광산 토양오염 정밀조사 보고서. Berner, R.A., 1967, Sedimentary pyrite formation: an update, Am. J. Sci., 256, 773-785.
  •  
  • 14. Bttcher, M.E., Smock, A.M., and Cypionka, H, 1998, Sulfur isotope fractionation during experimental precipitation of iron (II) and manganese (II) sulfide at room temperature, Chem. Geo., 146, 127-134.
  •  
  • 15. Conference on Acid Rock Drainage, Vancouver, BC, p. 15-30.
  •  
  • 16. Evangelou, V.P., 2001, Pyrite microencapsulation tech-nologies: Principles and potential field application, Ecological Engineering, 12, 165-178.
  •  
  • 17. Harris, D.L. and Lottermoser, B.G., 2006, Evaluation of phosphate fertilizers for ameliorating acid mine waste, Appl. Geochem., 21, 1216-1225.
  •  
  • 18. Hood, Y.A., 1991, The kinetic of pyrite oxidation in marine systems. Ph.D. Thesis, University of Miami, FL.
  •  
  • 19. Huminicki, D.M.C. and Rimstidt J.D., 2009, Iron oxyhydroxide coating of pyrite for acid mine drainage control, Appl. Geochem., 24, 1626-1634.
  •  
  • 20. Johnson, D.B. and Hallberg, K.B., 2002, Pitfalls of passive mine water treatment: reviews, Environ. Sci. Bio-Technol, 1, 335-343.
  •  
  • 21. Johnson, D.B. and Hallberg, K.B., 2005, Acid mine drainage remediation options: A review, Sci. Total Environ., 338, 3-14.
  •  
  • 22. Lawrence, R.W., Jaffe, S., and Broughton, L.M., 1988, In-House Development of the net acid production test method, Coastech Research.
  •  
  • 23. Lawrence, R.W. and Wang, Y., 1997, Determination of neutralization potential in the prediction of acid rock drainage, Proceedings of the Fourth International.
  •  
  • 24. Lee, G., Bigham, J.M., and Faure, G., 2002, Removal of trace metals by co-precipitation with Fe, Al, and Mn from natural waters contaminated with acid mine drainage in the Ducktown Mining District, Tennessee, Appl. Geochim., 17, 569-581.
  •  
  • 25. Nordstrom, D.K., 1982, Aqueous pyrite oxidation and the consequent formation of secondary iron materials. In: Hossner, L.R., Kittrick, J.A., Fanning, D.F. (Eds.), Acid Manipulation of Soil Minerals. Soil Science Society of America Press, Madison, p. 46.
  •  
  • 26. Scharer, J.M., Garga, V., Smith, R., and Halbert, B.E., 1991, Use of steady state models for assessing acid generation in pyritic mine tailings. In: The Second International Conference on the Abatement of Acid Drainage, Vol. 2, September 16-18, Montreal, Canada, p. 211.
  •  
  • 27. Singer, P.C. and Stumm, W., 1970, Acidic mine drainage: the rate-determining step, Science, 167, 1121-1123.
  •  
  • 28. Sobek, A.A., Schuller, W.A., Feeman, J.R., and Smith, R.M., 1978, Field and laboratory methods applicable to overburden and minesoils. EPA report No. 600/2-78-054, p. 47-50.
  •  
  • 29. USEPA and Hardrock Mining, 2003, A source book for industry in the northwest and alaska, Appendix C; Characterization of Ore, Waste Rock, and Tailings, C1-C17.
  •  
  • 30. Zhang, Y.L. and Evangelou, V.P., 1996, In fluence of iron oxide forming conditions on pyrite oxidation, Soil Science, 161, 852-864.
  •  

This Article

  • 2010; 15(4): 46-52

    Published on Aug 31, 2010

  • Received on Apr 20, 2010
  • Accepted on Jul 26, 2010

Correspondence to

  • E-mail: