참고문헌
- Deutsch, W.J. (1997) Water/rock interactions. in:Groundwater geochemistry - Fundamentals and application to contamination. (eds) Lewis Publishers, Boca Raton, p. 47-75.
- Drissi, S.H., Refait, P.H., Abdelmoula, M., and Genin, J.M.R. (1995) The preparation and thermodynamic properties of Fe(II)-Fe(IlI) hydroxidecarbonate (green rust I); Pourbaix diagram of iron in carbonate-containing aqueous media. Corros. Sci., 37, 2025-2041.
- Edwards, R.W., Duster, D., Faile, M., Gallant, W.,Gilbeau, E., Myller, B., Nevling, K., and O'Brady, B. (1996) Presented at RTDF permeable reactive barriers action team meeting,San Francisco, CA., August 15-16.
- Genin, l M.R., Bourrie, G., Trolard, F., Abdelmoula,M., Jaffrezic, A., Refait, P., Maitre, V., Humbert, B., and Herbillon, A. (1998) Thermodynamic equilibria in aqueous suspensions of synthetic and natural Fe(II)-Fe(111) green rusts: Occurrence of the mineral in hydromorphic soils. Environ. Sci. Technol., 32, 1058-1068.
- Gu, B., Phelps, T.J., Liang, L., Dickey, M.J., Roh,Y., Kinsall, B.L., Palumbo, A.V., and Jacobs ,G.K. (1999) Biogeochemical dynamics in zerovalent iron columns: Implication for permeable reactive barriers. Environ. Sci. Technol., 33,2 170-2 177.
- Gui, J. and Devine, T.M. (1994) The influence of sulfate ions on the surface enhanced Raman spectra of passive films formed on iron. Corros.Sci., 36, 441-462.
- Gui, J. and Devine, T.M. (1995) A SERS investigation of the passive films formed on iron in mildly alkaline solutions of carbonate/bicarbonate and nitrate. Corros. Sci., 37, 1177- 1189.
- Langmuir, D. (1997) Aqueous complexes. in:Aqueous environmental geochemistry, (eds) Prentice Hall, New Jersey, p.82-l 22.
- Liang, L., West, O.R., Korte, N.E., Goodlaxson,J.D., Pickering, D.A., Zutman, J.L., Anderson, F.J., Welch, CA., Pelfrey, M.J., and Dickey, M.J. (1997) The X-625 groundwater treatment facility: A field-scale test of trichloroethylene dechlorination using iron filings for the X-120/X-749 groundwater plume. ORNL/TM-13410,Oak Ridge National Laboratory , Oak Ridge, TN,63p.
- Matheson, L.J. and Tratnyek, P.G. ( 1994) Reductive dehalogenation of chlorinated methanes by iron metal. Environ. Sci. Technol., 28, 2045-2053.
- Mackenzie, P.D., Homey, D.P., and Sivavec, T.M. (1999) Mineral precipitation and porosity losses in granular iron columns. J. Hazard. Mater., 68, 1-17.
- Moon, J.-W., Moon, H.-S., Roh, Y., Lee, S.Y., and Song, Y. (2001) Preliminary experiments for the remediation of trichloroethene-contaminated groundwater using direct current and zero-valent iron.Econ. Environ. Geol., 34, 307-3 13 (in Korean).
- Moon, J.-W., Moon, H.-S., Roh, Y., Kim, H., and Song, Y. (2002) Optimal remediation of TCEcontaminated groundwater using direct current and Feo. Econ. Environ. Geol., 35, 229-239 (in Korean).
- Moon, J.-W., Moon, H.-S., Roh, Y., Kim, H., and Lee, S.Y. (in press) Electro-enhanced permeable reactive barrier I. Experimental results of op- timal design for abiotic remediation of TCE contaminated groundwater according to zero valent iron installation and electrode arrangements.J. Contam. Hydrol.
- Odziemkowski, M.S., Schuhmacher, T.T., Gillham,R.W., and Reardon, E.J. (1998) Mechanism of oxide film formation on iron in simulating groundwater solutions: Raman spectroscopic studies. Corros. Sci., 40, 371-389.
- Page, M.M. and Page, C.L. (2002) Electroremediation of contaminated soils. J. Environ. Eng., 128,208-219.
- Phelps, T.J., Niedzielski, J.J., Malachowsky, K.J.,Schram, R.M., Herbes, S.E., and White, D.C. (1991) Biodegradation of mixed-organic wastes by microbial consortia in continuous-recycle expanded-bed bioreactors. Environ. Sci. Techno!.,25,1461-1465.
- Phillips, D.H., Gu, B., Watson, D.N., and Roh, Y.(2003) Impact of sample preparation on mineralogical analysis of Fe(0) reactive barrier materials. J. Environ. Qual., 32 (In Press).
- Phillips, D.H., Gu, B., Watson, D.N., Roh, Y.,Liang, L., and Lee, S.Y. (2000) Performance evaluation of a zero-valent iron reactive barrier:Mineralogical characteristics. Environ. Sci. Technol.,34, 4169-4176.
- Reardon, E.J. (1995) Anaerobic corrosion of granular iron: Measurement and interpretation of hydrogen evolution rate. Environ. Sci. Technol.,29, 2936-2945.
- Refait, P.H. and Genin, J.M.R. (1994) The transformation of chloride-containing green rust I into sulphated green rust II by oxidation in mixed cr and sot aqueous media. Corros.Sci., 36, 55-65.
- Roh, Y., Lee, S.Y., and Elless, M.P. (2000a)Characterization of corrosion products in the permeable reactive barriers. Environ. Geol., 40, 184-194.
- Roh, Y., Lee, S.Y. Elless, M.P., and Foss, J.E.(2000b) Incorporation of radioactive contaminants into pyroaurite-like phases by electrochemical synthesis. Clays Clay Miner., 48,266-271.
- Roh, Y., Lee, S.Y., Elless, M.P., and Moon, H.-S.(2000c) Electro-enhanced remediation of trichloroethene-contaminated groundwater using zerovalent iron. Environ. Sci. Health, Part A, 35,1061-1076.
- Russell, J.D. and Fraser, A.R. (1994) Infrared methods. in: Clay mineralogy: Spectroscopic and chemical determinative methods, (eds) Wilson,M.J., Chapman & Hall, London, p.11-67.
- Sagoe-Crentsil, K.K. and Glasser, F.P. (1993)Constitution of green rust and its significance to the corrosion of steel in Portland cement. Corrosion,49, 457-463.
- Schwertmann, U. and Cornell, R.M. (2000) Iron oxides in the laboratory: Preparation and characterization, 2nd (eds), Wiley-VCH Publishers, New York. 188p.
- Schwertmann, U. and Taylor, R.M. (1989) Iron oxides. in: Minerals in soil environments, (eds) Dixon, J.B. and Weed, S.B., SSSA Book series, no. 1, Soil Science Society of America, Madison,WI, p.379-438.
- Shoemaker, S.H., Greiner, J.F., and Gillham, R.W.(1995) In Assessment of barrier contaminant technologies. (eds) Rumer, R.R. and Mitchell, J.K., U.S. Department of Energy, Washington,D.C., p. 301-353.
- Srinivasan, R., Lin, R., Spicer, R.L., and Davis,B.H. (1996) Structural features in the formation of the green rust intermediate and Y-FeOOH.Colloid. Surface. A, 113, 97-105.
- Tratnyek, P.G., Johnson, T.L., Scherer, M.M., and Eykholt, G.R. (1997) Remediating ground water with zero-valent metals: Chemical considerations in barrier design. Ground Water Monit. Remed.,17,108-114.
- Van der Marcel, H.W. and Beutelspacher, H. (1976) Atlas of infrared spectroscopy of clay minerals and their admixtures. (eds) Elsevier Scientific Publishing Company, Amsterdam, 396p.
- Vogel, T.M. and McCarty, P.L. (1985) Biotransformation of tetrachloroethylene to trichloroethylene, dichloroethylene, vinyl-chloride, and carbondioxide under methanogenic conditions. Appl.Environ. Microb., 49, 1080-1083.
- Watson, D., Gu, B., Phillips, D.H., and Lee, S.Y.(1999) Evaluation of permeable reactive barriers for removal of uranium and other inorganics at the Department of Energy Y-12 Plant, S-3 disposal ponds; ORNL/TM-1999-143; Oak Ridge National Laboratory; Oak Ridge, TN.