Management and Remediation Technologies of Contaminated Sediment
Kim, Geon-Ha;Jeong, Woo-Hyeok;
Department of Civil and Environmental Engineering, Hannam University;Daejeon Development Institute;
오염퇴적물 관리방향 및 처리공법
김건하;정우혁;
한남대학교 공과대학 토목환경공학과;대전발전연구원;

Abstract

As Total Maximum Daily Load program is being implemented, needs for the management and treatment of contaminated sediment are rising to attain cleaner water resources. In this paper, impacts and management methods of contaminated sediment were reviewed. Remediation technologies for contaminated sediment including dredging, natural attenuation, in situ solidification/stabilization, in situ biological remediation, in situ chemical remediation and capping were reviewed. Integrated remediation scheme was presented as well.

수질오염 총량제가 시행됨에 따라 깨끗한 수자원을 확보하기 위한 오염퇴적물의 관리 및 처리 필요성이 더욱 높아지고 있다. 본 논문에서는 오염퇴적물의 발생원과 오염퇴적물이 수질에 미치는 영향을 살펴보고, 오염퇴적물의 관리방향을 제시하였다. 오염퇴적물을 처리하기 위한 공법으로 준설공법과 자연정화법, 현장고정화/안정화, 생물학적 현장처리, 화학적 현장처리 공법에 대하여 요약 제시하였다. 또한 새롭게 대두되고 있는 캡핑공법을 소개하고, 오염퇴적물 처리를 위한 복합공법의 적용에 대한 개념을 제시하였다.

Keywords: contaminated sediment;treatment;management;water quality;

Keywords: 오염퇴적물;처리;관리;수질;

References

1. 김건하, 2003, International Conference on Remediation of Contaminated Sediments 참가기, 한국수자원학회지, 37(1), 104- 107
2. 김건하, 정우혁, 2005, 低泥 캡핑(Sediment Capping)을 활용한 오 염퇴적물의 효율적인 처리, 대한토목학회, 자연과 문명의 조화, 53, 122-127
3. 김건하, 정우혁, 최승희, 2006, 영가철(Fe0)을 이용한 퇴적물내 Atrazine의 탈염소화, 한국지하수토양환경학회지, 11, 33-40
4. 나유미, 2005, 호소퇴적물 인 용출 제어를 위한 현장 처리제 개발 및 모델 연구, 이화여자대학교 환경공학과 박사학위논문
5. 안재환, 지재성, 배우근, 이미경, 2004, 준설퇴적물의 블록화를 위한 타당성 연구. 한국폐기물학회지, 21(1), 43-49
6. 안재환, 김미경, 이미경, 황병기, 2005. 퇴적물 준설에 따른 수환 경 영향 예측 모의, 대한환경공학회지, 27(11), 1228-1237
7. 이성재, 배범한, 박규홍, 강성원, 황규대, 지재성, 2003, 준설퇴적 물 분류 및 오염물질의 물리화학적 전처리, 대한환경공학회지, 25(1), 55-63
8. 이재수, 김영철, 황길순, 2003. 장마 전후의 농엽용 저수지 퇴적 물의 변화분석, 대한토목학회논문집, 23(4B), 359-368
9. 이창희, 유혜진. 1998. 호소 및 하천 오염퇴적물 관리방안, 한국 환경정책.평가연구원
10. 전상호, 김휘중, 1990, 경포호의 준설에 의한 수질개선가능성에 관하여, 한국지구과학회지, 11, 174-180
11. 조홍제, 이병호, 김정식, 이근배, 2002, 도시하천의 하상퇴적토 준설에 따른 수질변화예측, 한국수자원학회논문집, 35, 137-148
12. Abrams, M.M. and Jarrell, W.M., 1995. Soil phosphorus as a potential nonpoint source for elevated stream phosphorus levels, Journal of Environmental Quality, 24, 132-138
13. Ali, M.B., Tripathi, R.D., Rai, U.N., Pal, A., and Singh S.P., 1999, Physico-chemical characteristics and pollution level of lake Nainital (U.P., India): Role of macrophytes and phytoplankton in biomonitoring and phytoremediation of toxic metal ions, Chemosphere, 39, 2171-2182
14. Andersson, G. Cronberg, G., and Gelin, C., 1973, Planktocin changes following the restoration of lake Trummen, Sweden, Ambio, 2, 44-47
15. Baudo, R., Giesy, J.P., and Muntau, H., 1990, Sediment: Chemistry and Toxicity of In-Place Pollutants. Lewis Publishers, Inc., Chelsea, MI
16. Brooks, K.M., Stierns, A.R., Mahnken, C.V.W., Blackburn, D.B., 2003, Chemical and biological remediation of the benthos near Atlantic salmon farms, Aquaculture, 219, 355-377
17. Cullinane, M.K., Jones, L.W., and Malone, P.G., 1986, Handbook for stabilization/solidification of hazardous waste, EPA/540/2-86 /001, Hazardous Waste Engineering Research Laboratory, Cincinnati, OH
18. Eggen, T. and Majcherczyk, A., 2006, Effects zero-valent iron (Fe0) and temperature on the transformation of DDT and its metabolites in lake sediment, Chemosphere, 62, 1116-1125
19. Hammerschmidt, C.R., Fitzgerald, W.F., Lamborg, C.H., Balcom, P.H., and Visscher, P.T., 2004, Biogeochemistry of methylmercury in sediments of Long Island Sound, Marine Chemistry, 90, 31-52
20. Hanson, M.J. and Stefan, H.G., 1984, Shallow lake water quality improvement by dredging. In: Proceeding of the 4th Annual Conference International Symposium Lake Watershed management, Notrh American lake Management Society
21. Jafvert, C.T. and Rogers, J.E., 1991, Biological remediation of contaminated sediment with special emphasis on the Great Lakes. EPA/600/9-91/001. Environmental Research Laboratory, Athens, GA
22. Lensyl Urbano, Brian Waldron, Dan Larsen, Heather Shook, 2006, Groundwater-surfacewater interactions at the transition of an aquifer from unconfined to confined, Journal of Hydrology, 321, 200-212
23. Levitt, J.S., N'Guessan, A.L., Rapp, K.L., and Nyman, M.C., 2003, Remediation of $\alpha$-methylnaphthalene-contaminated sediments using peroxy acid, Water Research, 37, 3016-3022
24. Myers, T.E. and Zappi, M.E., 1989, New Bedford Harbor Superfund project, Acushnet River estuary engineering feasibility study of dredging and dredged material disposal alternatives. In: Report No. 9, Laboratory-Scale Application of Solidification/ Stabilization Technology. Technical Report EL-8815. US Army Engineer Waterway Experiment Station, Vicksburg, MS
25. Mohan, R.K., Brown, M.P., and Barnes, C.R., 2000, Design criteria and theoretical basis for capping contaminated marine sediments, Applied Ocean Research, 22, 85-93
26. Murphy, T.P., Hall, K.J., and Yesaki, I., 1983, Coprecipitation of phosphate with calcite in a naturally eutrophic lake, Limnology and Oceanography, 28, 58-69
27. N'Guessan, A.L., Levitt, J.S., and Nyman, M.C., 2004, Remediation of benzo(a) pyrene in contaminated sediments using peroxy- acid, Chemosphere, 55, 1413-1420
28. Palermo, M.R., 1998, Design considerations for in-situ capping of contaminated sediments, Water Science and Technology, 37(6-7), 315-321
29. Pokorn, J. and Haauser, V., 2002, The restoration of fish ponds in agricultural landscapes, Ecological Engineering, 18, 555-574
30. Robinson, B., Duwig, C., Bolan, N., Kannathasan, M., and Saravanan, A., 2003, Uptake of arsenic by New Zealand watercress (Lepidium sativum), The Science of The Total Environment, 301, 67-73
31. Santschi, P., Honener, P., Beniot, G., and Buchholtz-ten-Brink, M., 1990, Marine Chemistry, 30, 269-315
32. Thoma, G.J., Reible, D.D., Valsaraj, K.T., and Thibodeaux, L.J., 1993, Efficiency of capping contaminated sediments in situ- 2:mathematics of diffusion-adsorption in the capping layer, Environment Science Technology, 27, 2412-2419
33. USEPA, 1985, Removal and Mitigation of Contaminated Sediments., Cincinnati, Ohio
34. USEPA, 1998, EPA's Contaminated Sediment Management Strategy: Reinventing Government to Streamline Decision-Making http://www.epa.gov/ostwater/ cs/manage
35. USEPA, 1993, Selection remediation techniques for contaminated sediment, EPA/823/B93/001, U.S. Environmental Research Agency, Office of Water, Washingtion, DC. and Office of Research and Development, Cincinnati, OH
36. USEPA, 2005a, Contaminated Sediment Remediation Guidance for Hazardous Waste Sites, EPA/540/R/05/012, U.S. Environmental Protection Agency Office of Solid Waste and Emergency Response
37. USEPA, 2005b, Assessment and Remediation of Contaminated Sediments (ARCS) Program, EPA/905/B94/003, Great Lakes National Program Office, Chicago, IL
38. Walling, D.E., Russell, M.A., and Webb, B.W., 2001, Controls on the nutrient content of suspended sediment transport by British rivers, the Science of the Total Environment, 266, 113-123
39. Wang, S., Jin, X., Bu, Q., Zhou, X., and Wu, F., 2006, Effects of particle size, organic matter and ionic strength on the phosphate sorption in different trophic lake sediments. Journal of Hazardous Materials, 128, 95-105
40. Wang, X.Q., Thibodeaux, L.J., Valsaraj, K.T., and Reible, D.D., 1991, Efficiency of capping contaminated sediments in situ-1: laboratory scale experiments on diffusion-adsorption in the capping layer, Environment Science Technology, 25, 1578-1584
41. Zeeman, A.J., 1993, Subaqueous capping of contaminated sediments, Canadian Geotechnical Journal, 31, 570-577

This Article

2007; 12(3): 1-9

Published on Jun 30, 2007

This Article

Services

Shared