Sequential Washing Techniques for Arsenic-Contaminated Soils near the Abandoned Iron-Mine
Hwang Jung-Sung;Choi Sang-il;Han Sang-Geun;
Department of Environmental Engineering, Kwangwoon University;Department of Environmental Engineering, Kwangwoon University;Department of Environmental Engineering, Kwangwoon University;
폐 철광산 주변 비소로 오염된 토양에 대한 연속 세척기법의 적용
황정성;최상일;한상근;
광운대학교 환경공학과;광운대학교 환경공학과;광운대학교 환경공학과;

References

1. 환경부, 2002a, 토양오염공정시험법
2. 환경부, 2002b, 토양환경보전법
3. 환경부, 2003, 폐금속광산 토양오염실태 일제조사
4. Kim, J. Y., Davis, A. P., and Kim, K. W., 2003, Stabilization of Available Arsenic in Highly Contaminated Mine Tailings Using Iron, Environ. Sci. Technol., 37, 189-195
5. Tokunaga, S. and Hakuta, T., 2002, Acid washing and stabilization of an artificial arsenic-contaminated soil, Chemosphere, 46, 31-38
6. US EPA, 1997a, Method 9080, Cation-Exchange Capacity of Soils (Ammonium Acetate): Test Methods for Evaluating Solid Wastes, Physical/Chemical Methods (SW846), Washington, DC
7. US EPA, 1997b, Method 3050B, Acid Digestion of Sediments, Sludges, and Soils: Test Methods for Evaluating Solid Wastes, Physical/Chemical Methods (SW846), Washington, DC
8. US EPA, 2002, Arsenic Treatment Technologies for Soil, Wastes, and Water (EPA/542/R/02/004), Washington, DC
9. West, C. C. and Harwell, J. F., 1992, Surfactant and Subsurface Remediation, Environ. Sci. Technol., 26, 2324-2330
10. William, C. and Anderson, P. E., 1993, Innovative Site Remediation Technology: Soil Washing/Soil Flushing, American Academy of Environmental Engineers, 3, 4.3