Abstract
References
Information
In this study, the remediation of diesel contaminated soil was attempted with ozone treatment and Fenton reaction. About 10% of initial diesel concentration was removed by the ozone saturated solution. The pseudo-first order decomposition constant of diesel contaminated soil in the presence of 5% of hydrogen peroxide with 1.82, 2.82, 4.82, 6.82, and 11.82% of iron contents was 0.0228, 0.0308, 0.0482, 0.0471, and 0.0592 $min^{-1}$ respectively. The decomposition constant of the diesel was 0.0064 $min^{-1}$ with the addition of ozone saturated solution only. On the addition of ozone saturated solution in the presence of 5% hydrogen peroxide and 5% iron, the decomposition constant of the diesel was 0.0850 $min^{-1}$ . These results indicated that the decomposition rate was 190% faster than without the addition of ozone saturated solution. Thus, the application of both ozone and the fenton reaction is promising for the remediation of the diesel contaminated soil.
- 김광수, 유도윤, 최희철, 정문경, 1998, 유류오염토양 현장복원기술개발, 건설기술연구원.
- 김지영, 조경숙, 2006, 근권세균과 식물을 이용한 유류 오염 토양의 생물복원, 한국미생물생명공학회지, 34(3), 185-195.
- 박용하, 이승희, 1995, 토양환경보전을 위한 오염방지기준 및 관리대책, 한국환경기술개발원.
- 박준석, 2006, 펜톤산화공정을 이용한 난분해성 오염토양의 처리, 한국지반환경공학회, 7(2), 28-33.
- 윤상희, 2005, 2004년 특정토양오염유발시설 설치 및 관리현황보고, 환경부.
- 이종득, 박정구, 서창일, 최석준, 정현석, 인병훈, 박정억, 김락현, 고병익, 이창환, 윤선정, 여영도, 주완호, 윤여민, 박인선, 손정은, 2007, 토양오염정화방법 가이드라인, 환경부, 2-11.
- 최석종, 최현진, 박진희, 이태진, 2004, 펜톤 유사반응을 이용한 디젤 오염토양의 처리와 잔류 괴산화수소가 생물학적 처리에 미치는 영향, 대한환경공학회지, 26(3), 334-339.
- 최희철, 유도윤, 임형남, 김광수, 2000, Ozone에 의한 유류오염토양 복원 연구(II): 토양컬럼상에서의 오존산화,대한환경공학회지, 22(10), 1825-1832.
- 최희철, 지재성, 유도윤, 1997, 탄화수소화합물로 오염된 지반환경복원기술개발연구, 한국건설기술연구원
- Bentran, F.J., Gonlez, M., Rias, F.J., and Alvarez, P., 1998, Fenton reagent advanced oxidation of polynuclear aromatic hydrocarbons in water, Wat. Air. Soil Pollution, 105(3-4), 685-700.10.1023/A:1005048206991
- Gates D.D. and Siegrist R.L., 1995, In situ chemical oxidation of polychloroethylene using hydrogen peroxide, J. Envir. Eng. 121(9), 639-644.10.1061/(ASCE)0733-9372(1995)121:9(639)
- Kuo. C.H., Li. K.Y., Wen. C.P, and Weeks. JLJr., 1977, Absorption and decomposition of ozone in aqueous solutions. Am. Inst. Chem. Sym. Ser. 73(166), 230-241.
- Mader, B.T, Uwe-Goss, K., and Eisenreich, S.J., 1997, Sorption of nonionic, hydrophobic organic chemicals to mineral surface, Envir. Sci. Tech. 31(4), 1079-1086.10.1021/es960606g
- Neyens, E. and Baeyens, J., 2003, A review of classic Fenton's peroxidation as an advanced oxidation technique, J. Haza. Mat. B98, 33-50.
- Rosenfeldt, E.J., Linden, K.G., Canonica, S., and Gunten, U.V., 2006, Comparison of the efficiency of OH radical formation during ozonation and the advanced oxidation processes
$O_3/H2O_2 and UV/H_2O_2$ , Wat. Res. 40, 3695-3704.10.1016/j.watres.2006.09.008 - Tsai, T.T., Sah, J., and Kao, C.M., 2009, Application of iron electrode corrosion enhanced electrokinetic-Fenton oxidation to remediate diesel contaminated soils: a laboratory feasibility study, J. Hydro. 380(1-2), 4-13.
- Watts, R.J. and Dilly, S.E, 1996, Evaluation of iron catalysts for the Fenton-like remediation of diesel-cotaminated soils, J. haz. mat. 51(1-3), 209-224.10.1016/S0304-3894(96)01827-4
- Publisher :The Korean Society of Soil and Groundwater Environment
- Publisher(Ko) :한국지하수토양환경학회
- Journal Title :Journal of Soil and Groundwater Environment
- Journal Title(Ko) :지하수토양환경
- Volume : 15
- No :2
- Pages :34 ~ 39


Journal of Soil and Groundwater Environment





