References
- Bottrell, S.H. and Morton, M.D.B., 1992, A reinterpretation of the genesis of the Cae Coch pyrite deposit, North Wales. Journal of the Geological Society, London, UK, 149, 581-584. https://doi.org/10.1144/gsjgs.149.4.0581
- Cho, K.S., Roh, Y., and Chung, D.H., 2007, A Biogeochemical study on the heavy metal leaching from coal fly ash disposed by Dangjin fire plant in the coastal environment. Journal of Korean Earth Society, 28, 112-122. https://doi.org/10.5467/JKESS.2007.28.1.112
- Eary, L.E., Dhanpat, Rai, Mattigod, S.V., and Ainsworty, C.C., 1990, Geochemical factors controlling the mobilization of inorganic constituents from fossil fuel combustion residues. Journal of Environmental Quality, 19, 202-214.
- Gay, A.J. and Davis, P.B., 1987, Some environmental aspects of coal fly ash. Coal science and technology, 20, 221-243.
- Han, O.H., Chun, H.S., and Yoon, R.H., 2001, Development of a Electrostatic Separation Technology for Removal of Unburned Carbon from Fly Ash. Journal of the Korean Institute of Mineral and Energy Resources Engineers, 38, 416-423.
- Hansen, L.D. and Fisher, G.L., 1980, Elemental distribution in coal fly ash particles. Environmental Science and Technology, 14, 1111-1117. https://doi.org/10.1021/es60169a015
- Hjelmar, O., 1990, Leachate from land disposal of coal fly ash. Waste Management and Research, 8, 429-449. https://doi.org/10.1177/0734242X9000800170
- Hockly, D.E. and Van Der Sloot, H.A., 1991, Long-term processes in stabilized coal waste block exposed to sea water. Environmental Science and Technology, 25, 1408-1414. https://doi.org/10.1021/es00020a007
- Hulett, L.D. and Weinberger, A.J., 1980, Some etching studies of the microstructure and composition of large aluminosilicate particles in fly ash from coal-burning power plants. Environmental Science and Technology, 14, 965-970. https://doi.org/10.1021/es60168a013
- Kim, K.J., Yeo, S.G., Yun, S.T., and Hwang, G.S., 2002, Geochemical Study on the Fly Ash-Seawater Reaction. Proceeding of the Annual Joint Conference: Petrological Society of Korea and Mineralogical Society of Korea, 70-73.
- Konhauser, K.O., 1998, Diversity of bacterial iron mineralization. Earth Science Review, 43, 91-121. https://doi.org/10.1016/S0012-8252(97)00036-6
- Lee, G.H., Choi, S.K., Moon, H.S., and Lee, S.H., 1997, Mineralogical and Geochemical Characteristics of PFA(Pulverised Fuel Ash) from Yongwol Power Plant. Economic Environmental Geology, 30, 443-450.
- Lee, J.H., Seo, H.N., Kim, C.R., Kim, N.J., and Min, K.S., 2001, Characteristics of OPC-Fly ash-Slag System. Cement Symposium, 28, 47-53.
- Mattigod, S.V., Dhanpat, Rai, Eary, L.E., and Ainsworty, C.C., 1990, Geochemical factors controlling the mobilization of inorganic constituents from fossil fuel combustion residues: Review of the major elements. Journal of Environmental Quality, 19, 188-201.
- Nelson, E.G., 2004, Principles of environmental geochemistry. Tomson Brooks/Cole, USA, 514 p.
- Nickson, R.T., McArthur, J.M., Ravenscroft, P., Burgess, W.G., and Ahmed, K.M., 2000, Mechanism of arsenic release to groundwater, Bangladesh and West Bengal. Applied Geochemistry, 15, 403-413. https://doi.org/10.1016/S0883-2927(99)00086-4
- Reijnders, L., 2005, Disposal, uses and treatments of combustion ashes: A review. Resources, Conservation and Recycling, 43, 313-336. https://doi.org/10.1016/j.resconrec.2004.06.007
- Roethel, F.J.and Oakley, S.A., 1985, Effects of seawater on the mineralogical and chemical composition of coalwaste blocks. In Duedall, I.W., Kester, D.R., Park, P.K., and Ketchum, B.H. (eds.), Wastes in the Ocean, Vol. 4, Energy Wastes in the Ocean. Wiley, NY, USA, 691-704.
- Roh, Y., Lauf, R.J., and Phelps, T.J., 2001, Utilization of biomineralization processes with fly ash for carbon sequestration. First National Conference on Carbon Sequestration, Washington, D.C., May, 15-17.
- Roh, Y., Moon, J.W., Song, Y., and Moon, H.S., 2003a, Biomineralization processes using fly ash for carborn sequestration. Journal of Mineralogical Society of Korea, 16, 171-180.
- Roh, Y., Lauf, R.J., and Phelps, T.J., 2003b, Biogeochemical processes utilizing fly ash for carbon sequestration. Second National Conference on Carbon Sequestration, Washington, D.C., May, 14-17.
- Stumn, W. and Morgan, J.J., 1996, Aquatic Chemistry. 3rd ed, John Wileys and Son, NY, USA, 1022 p.
- Tributsch, H., 2001, Direct versus indirect bioleaching. Hydrometallurgy, 59, 177-185. https://doi.org/10.1016/S0304-386X(00)00181-X
- Vassilev, S.V., Eskenazy, G.M., and Vassileva, C.G., 2000, Contents, modes of occurrence and behaviour of chlorine and bromine in combustion wastes from coal-fired Power Plants. Fuel, 79, 923-937. https://doi.org/10.1016/S0016-2361(99)00231-8
- Vassilev, S.V. and Vassileva, C.G., 1997, Geochemistry of coals, coal ashes and combustion wastes from coal-fired Power Plants. Fuel Process Technology, 51, 19-45. https://doi.org/10.1016/S0378-3820(96)01082-X
- Yoon, C.H., Oh, K.C., Kim, Y.W., and Shin, B.S., 1995, Content of Heavy Metals in Coal Fly Ash from the Samcheonpo and the Seocheon Power Plant. Economic Environmental Geology, 28, 147-154.
- White, C., Sayer, J.A., and Gadd, G.M., 1997, Microbial solubilization and immobilization of toxic metals: Key biogeochemical processes for treatment of contamination. FEMS microbiology reviews, 20, 503-516. https://doi.org/10.1111/j.1574-6976.1997.tb00333.x