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Feasibility Study on Soil Flushing for Railway Soil Contaminated with Lubricant Oil and Zinc
Park, Sung-Woo;Cho, Jung-Min;Lee, Jae-Young;Park, Joon-Kyu;Baek, Ki-Tae;
Dasan Consultants Co. Ltd.;Department of Environmental Engineering, Kumoh National Institute of Technology;Korea Railroad Research Institute;Dasan Consultants Co. Ltd.;Department of Environmental Engineering, Kumoh National Institute of Technology;
토양세정 기술을 활용한 윤활유와 아연 복합오염 철도토양의 정화 연구
박성우;조정민;이재영;박준규;백기태;
다산컨설턴트;금오공과대학교 환경공학과;한국철도기술연구원;다산컨설턴트;금오공과대학교 환경공학과;

Abstract

The feasibility study of soil flushing was investigated to remediate lubricant oil and zinc contaminated railway soil. In this study, mixed washing agents of surfactant and inorganic acid/base were used for the simultaneous removal. The mixed washing agent of non-ionic surfactant and HCl removed 15% of the lubricant oil and 40% of zinc, respectively. Alkaline-enhanced soil washing process increased the removal of lubricant oil up to 40%. This is because alkaline solution reduced the interfacial tension between water phase and lubricant oil phase due to the soap formation reaction. To simulate in-situ soil flushing for the remediation of railroad-related contamination, two dimensional soil flushing was carried out based on the results of batch soil washing. In the soil flushing, the removal efficiencies of lubricant oil and zinc were 34% and 16%, respectively. Even though the removal efficiency was low, the mixed washing agent can remove metal and lubricant oil simultaneously.

Keywords: Railroad-contaminated soil;Lubricant oil;Zinc;Soil flushing;Soil washing;

References

1. 김남호, 김인수, 최애정, 이민희, 2006, 과산화수소를 이용한 현장원위치 화학적 산화법과 공기분사법을 연계한 디젤 오염 토양/지하수 동시 정화 실내 실험 연구, 지하수토양환경, 11(6), 8-17.
2. 김민경, 공성호, 2006, Modified Photo-Fenton Reaction을 이용한 Methyl Tert-butyl Ether(MTBE)의 분해 Kinetic 및 메커니즘 규명에 관한 연구, 지하수토양환경, 11(6), 69-75.
3. 박성우, 신민철, 전칠성, 백기태, 이재영, 2008, 윤활유 유래 철도 오염토양의 정화방법 연구, 지하수토양환경, 13(2), 30-35.
4. 박성우, 이재영, 권태순, 김경조, 정근욱, 백기태, 2009, 세척제를 이용한 아연오염 철도토양의 정화 타당성 연구, 지하수토양환경, 14(1), 78-82.
5. 백기태, 김도형, 서창일, 양중석, 이재영, 2007, 염산을 사용한 납 오염 토양의 토양세척에 의한 정화, 지하수토양환경, 12(3), 17-22.
6. 이종열, 김용수, 권영호, 공성호, 박신영, 이창환, 성혜련, 2004, EDTA와 붕산 혼합용출제를 이용한 중금속으로 오염된 토양의 처리에 관한 연구(I) : 납, 지하수토양환경, 9(4), 1-7.
7. 황정성, 최상일, 한상근, 2005, 폐 철광산 주변 비소로 오염된 토양에 대한 연속 세척기법의 적용, 지하수토양환경, 10(1), 58-64.
8. Park, S.W., Lee, J.-Y., Yang, J.-S., Kim, K.-J., and Baek, K.T., 2009, Electrokinetic remediation of contaminated soil with waste-lubricant oils and zinc, J. HAZARD. MATER., 169, 1168-1172.
9. Park, S.-W., Lee, J.-Y., Kim, K.-J., Yang, J.-S., and Baek, K.T., 2010, Alkaline Enhanced-Separation of Waste Lubricant Oils from Railway Contaminated Soil, SEP. SCI. TECHNOL., 45(12&13), 1988-1993.

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