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NTIS 바로가기터널과 지하공간: 한국암반공학회지 = Tunnel and underground space, v.32 no.1, 2022년, pp.30 - 58
홍창호 (한국원자력연구원) , 김지원 (한국원자력연구원) , 김진섭 (한국원자력연구원) , 이창수 (한국원자력연구원)
The deep geological repository for high-level radioactive waste disposal is a multi barrier system comprised of engineered barriers and a natural barrier. The long-term integrity of the deep geological repository is affected by the coupled interactions between the individual barrier components. Eros...
Abend, S., and Lagaly, G., 2000, Sol-gel transitions of sodium montmorillonite dispersions, Applied clay science 16(3-4), 201-227.
Alonso, E.E., Gens, A., and Josa, A., 1990, A constitutive model for partially saturated soils, Geotechnique, 40(3), 405-430.
Alonso, E.E., Vaunat, J., and Gens, A., 1999, Modelling the mechanical behaviour of expansive clays, Engineering Geology, 54(1-2), 173-183.
Alonso, U., Missana, T., Gutierrez, M.G., Morejon, J., Mingarro, M., and Fernandez, A.M., 2019, CIEMAT studies within POSKBAR project, Swedish Nuclear Fuel and Waste Management Company, TR 19-08, Svensk Karnbranslehantering AB.
Amadei, B. and Stephansson, O., 1997, Rock Stress and Its Measurement, Chapman and Hall.
ASTM D4647/D4647M-13, Standard Test Methods for Identification and Classification of Dispersive Clay Soils by the Pinhole Test.
Baik, M.H., Lee, J.O., and Cho, W.J., 2005, A Study on the Erosion of Bentonite Buffer Material of the Engineered Barrier System, KAERI technical report, KAERI/TR-3061/2005, Korea Atomic Energy Research Institute.
Birgersson, M., Borgesson, L., Hedstrom, M., Karnland, O., and Nilsson, U., 2009, Bentonite erosion. Final report, Swedish Nuclear Fuel and Waste Management Company, TR 09-34, Svensk Karnbranslehantering AB.
Borgesson, L. and Sanden, T., 2006, Piping and erosion in buffer and backfill materials. Current knowledge, Swedish Nuclear Fuel and Waste Management Company, R 06-80, Svensk Karnbranslehantering AB.
Borgesson, L., Hedstrom, M., Birgersson, M., and Karnland, O., 2018, Bentonite swelling into fractures at conditions above the critical coagulation concentration, Swedish Nuclear Fuel and Waste Management Company, TR 17-11, Svensk Karnbranslehantering AB.
Borgesson, L., Sanden, T., Falth, B., Akesson, M., and Lindgren, E., 2005, Studies of buffers behaviour in KBS-3H concept. Work during 2002-2004, Swedish Nuclear Fuel and Waste Management Company, R 05-50, Svensk Karnbranslehantering AB.
Garcia-Garcia, S., Wold, S., and Jonsson, M., 2007, Kinetic determination of critical coagulation concentrations for sodium-and calcium-montmorillonite colloids in NaCl and CaCl2 aqueous solutions, Journal of colloid and interface science, 315(2), 512-519.
Goh, R., Leong, Y.K., and Lehane, B., 2011, Bentonite slurries-zeta potential, yield stress, adsorbed additive and time-dependent behaviour, Rheologica acta, 50(1), 29-38, 2011.
Hedstrom, M., Hansen, E.E., and Nilsson, U., 2016, Montmorillonite phase behaviour, Swedish Nuclear Fuel and Waste Management Company, TR 15-07, Svensk Karnbranslehantering AB.
Ishii, T., Kawakubo, M., Kobayashi, I., and Niibori, Y., 2020, Experimental approach for understanding the dynamic behaviors of bentonite buffer piping erosion, Mechanical Engineering Journal, 7(3), 19-00469.
Islam, M. N., Bunger, A.P., Huerta, N., and Dilmore, R., 2019, Bentonite extrusion into near-borehole fracture, Geosciences, 9(12), 495.
Jansson, M., 2009, Bentonite erosion. Laboratory studies, Swedish Nuclear Fuel and Waste Management Company, TR 09-33, Svensk Karnbranslehantering AB.
Karnland, O., and Birgersson, M., 2006, Montmorillonite stability With special respect to KBS-3 conditions, Swedish Nuclear Fuel and Waste Management Company, TR 06-11, Svensk Karnbranslehantering AB.
Karnland, O., Birgersson, M., and Hedstrom, M., 2011, Selectivity coefficient for Ca/Na ion exchange in highly compacted bentonite, Physics and Chemistry of the Earth, 36, 1554-1558.
Kim, J., Ryoo, R., Lee, J., Song, D., Lee, Y.J., and Jun, H.B., 2016, Study on major mineral distribution characteristics in groundwater in South Korea, Journal of Korean Society of Environmental Engineers, 38(10), 566-573.
Kim, M.S., Jeon, J.S., Kim, M.J., Lee, J.W., and Lee, S.R., 2019, A multi-objective optimization of initial conditions in a radioactive wasterepository by numerical thermo-hydro-mechanical modeling, Computers and Geotechnics, 114, 103-106.
Kobayashi, A., Yamamoto, K., and Momoki, S., 2008, Characteristics of strength for hydraulic fracturing of buffer material, Soils and foundations, 48(4), 467-477.
Lagaly, G. and Ziesmer, S., 2003, Colloid chemistry of clay minerals: the coagulation of montmorillonite dispersions, Advances in colloid and interface science, 100, 105-128.
Lavina, M., Idiart, A., Molinero, J., and Casas, G., 2018, Development, testing and application of alternative models for bentonite expansion and erosion, Swedish Nuclear Fuel and Waste Management Company, TR 17-13, Svensk Karnbranslehantering AB.
Lee, C., Cho, W.J., Kim, J. S., and Kim, G.Y., 2020, Penetration of Compacted Bentonite into the Discontinuity in the Excavation Damaged Zone of Deposition Hole in the Geological Repository, Tunnel and Underground Space, 30(3), 193-213.
Lee, J.O., Lee, M., and Choi, H., 2015, Establishing the Concept of Buffer for a High-level Radioactive Waste Repository: An Approach, Journal of Nuclear Fuel Cycle and Waste Technology, 13(4), 283-293.
Liu, L. and Neretnieks, I., 2006, Physical and chemical stability of the bentonite buffer, Swedish Nuclear Fuel and Waste Management Company, R 06-103, Svensk Karnbranslehantering AB.
Liu, L., 2013, Prediction of swelling pressures of different types of bentonite in dilute solutions, Colloids and Surfaces A: Physicochemical and Engineering Aspects, 434, 303-318.
Liu, L., Moreno, L., and Neretnieks, I., 2009, A dynamic force balance model for colloidal expansion and its DLVO-based application, Langmuir, 25(2), 679-687.
Madsen, F.T. and Muller-Vonmoos, M., 1989, The swelling behaviour of clays, Applied Clay Science, 4(2), 143-156.
Moreno, L., Liu, L., and Neretnieks, I., 2011, Erosion of sodium bentonite by flow and colloid diffusion, Physics and Chemistry of the Earth, Parts A/B/C, 36(17-18), 1600-1606.
Navarro, V., Asensio, L., Yustres, A., De la Morena, G., and Pintado, X., 2016, Swelling and mechanical erosion of MX-80 bentonite: Pinhole test simulation, Engineering Geology, 202, 99-113.
Navarro, V., Asensio, L., Yustres, A., Pintado, X., and Alonso, J., 2014, An elastoplastic model of bentonite free swelling, Engineering Geology, 181, 190-201.
Navarro, V., Yustres, A., Asensio, L., De la Morena, G., Gonzalez-Arteaga, J., Laurila, T., and Pintado, X., 2017, Modelling of compacted bentonite swelling accounting for salinity effects, Engineering Geology, 223, 48-58.
Neretnieks, I., and Moreno, L., 2018a, Revisiting bentonite erosion understanding and modelling based on the BELBaR project findings, Swedish Nuclear Fuel and Waste Management Company, TR 17-12, Svensk Karnbranslehantering AB.
Neretnieks, I., and Moreno, L., 2018b, Some Mechanisms that Influence Bentonite Erosion in a KBS-3 Repository-an Exploratory Study, Swedish Nuclear Fuel and Waste Management Company, TR 18-13, Svensk Karnbranslehantering AB.
Neretnieks, I., Liu, L., and Moreno, L., 2009, Mechanisms and models for bentonite erosion, Swedish Nuclear Fuel and Waste Management Company, TR 09-35, Svensk Karnbranslehantering AB.
Neretnieks, I., Moreno, L., and Liu, L., 2017, Clay erosion: impact of flocculation and gravitation, Swedish Nuclear Fuel and Waste Management Company, TR 16-11, Svensk Karnbranslehantering AB.
Pintado, X., Adesola, F., and Turtiainen, M., 2013, Downscaled tests on buffer behaviour, Posiva Oy, No. POSIVA-WR-12-100.
Pont, A., Coene, E., and Idiart, A., 2020, Bentonite erosion project. Preliminary study for the numerical simulation of bentonite erosion, Swedish Nuclear Fuel and Waste Management Company, P 20-16, Svensk Karnbranslehantering AB.
Pusch, R., 1983, Stability of Bentonite Gels in Crystalline Rocks: Physical Aspects, Swedish Nuclear Fuel and Waste Management Company, TR 83-04, Svensk Karnbranslehantering AB.
Reid, C., Lunn, R., El Mountassir, G., and Tarantino, A., 2015, A mechanism for bentonite buffer erosion in a fracture with a naturally varying aperture, Mineralogical Magazine, 79(6), 1485-1494.
Richards, T., 2010, Particle clogging in porous media. Filtration of a smectite solution, Swedish Nuclear Fuel and Waste Management Company, TR 10-22, Svensk Karnbranslehantering AB.
Sanden, T., Borgesson, L., Dueck, A., Goudarzi, R., and Lonnqvist, M., 2008, Deep repository - Engineered barrier system. Erosion and sealing processes in tunnel backfill materials investigated in laboratory, Swedish Nuclear Fuel and Waste Management Company, R 08-135, Svensk Karnbranslehantering AB.
Sane, P., Laurila, T., Olin, M., and Koskinen, K., 2013, Current status of mechanical erosion studies of bentonite buffer, Posiva Oy, No. POSIVA-12-45.
Schatz, T., Alonso, U., Missana, T., Reid, C., Friedrich, F., Rinderknecht, F., and Koskinen, K., 2016, Benchmarking Exercise of Clay Erosion in Artificial Fracture Tests, BELBaR Final Workshop, 3rd February 2016, Berlin, Germany.
Schatz, T., Kanerva, N., Martikainen, J., Sane, P., Olin, M., Seppala, A., and Koskinen, K., 2013, Buffer erosion in dilute groundwater, Posiva Oy, No. POSIVA-12-44.
Sellin, P., and Sundman, D., 2011, Bentonite Erosion: effects on the Long term performance of the engineered Barrier and Radionuclide transport, EURATOM Project presentation.
Suzuki, K., Asano, H., Yahagi, R., Kobayashi, I., Sellin, P., Svemar, C., and Holmqvist, M., 2013, Experimental investigations of piping phenomena in bentonite-based buffer materials for an HLW repository, Clay Minerals, 48(2), 363-382.
Vilks, P., and Miller, N.H., 2010, Laboratory bentonite erosion experiments in a synthetic and a natural fracture, Nuclear Waste Management Organization, TR-2010-16.
Wang, Z., Zhao, B., and Royal, A.C.D., 2017, Investigation of Erosion of Cement-Bentonite via Piping, Advances in Materials Science and Engineering, Vol. 2017, 1762042.
Yoon, S., Jeon, J.S., Go, G.H., and Kim, G.Y., 2020, An Evaluation of Soil-Water Characteristic Curve Model for Compacted Bentonite Considering Temperature Variation. Journal of the Korean Geotechnical Society, 36(10), 33-39.
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