The quantity of radioactive waste will grow significantly with an increasing interest and use of nuclear-generated energy. There will always be inevitable radioactive waste residues that require disposal, even using an advanced nuclear fuel cycle in the future.
Deep geological disposal, one of the most promising final disposal methods, should be validated for its long-term performance and safety assessment. Geotechnical issues related to the deep geological disposal are critical for the sustainable development of nuclear energy. They play challenging roles especially under extreme circumstances that result from deep geological conditions of a repository, extremely long containment time, and the characteristics of nuclear waste itself such as high decay heat, which may primarily affect thermo-hydro-mechanical and geochemical-coupled behavior of a repository for geologic time scales. This paper introduces an overview of deep geological disposal concepts based on Finnish, Korean, Spanish, and Swedish disposal programs,discusses the outstanding research issues in disposal from the aspect of geological and geotechnical engineering, such as Excavation-Damaged Zone (EDZ), cementitious material, long-term gas migration, and self-sealing/healing of fractured rocks with a focus on the state of the art in-situ validation experiments, and additionally presents a numerical modeling of the coupled THMG process in the repository near field, which is one of the major factors concerning the fuel canisters.

1 Svemar, C, "Äspö hard rock laboratory, International Progress Report" SKB 2002

2 Dixon, D., "Two largescale sealing tests conducted at Atomic Energy of Canada’s underground research laboratory: The buffer-container experiment and the isothermal test" 39 (39): 503-518, 2002

3 Collin, F., "Thermo-hydromechanical coupling in clay barriers" 64 (64): 179-193, 2002

4 Thomas, H. R., "Thermal/Hydraulic/Chemical/Mechanical (THCM) behavior of partly saturated soil, In Computer Methods and Advances in Geomechanics Vol. 1" A.A. Balkema 756-763, 2001

5 NAS, "The disposal of radioactive waste on land" National Academy of Sciences 1957

6 NAGRA, "Technical-scientific contributions on the topic of nuclear waste management" NAGRA 2002

7 Guimarães, L, "THM and reactive transport coupling in unsaturated porous media" 303-308, 1999

8 Sánchez, M., "THM analysis of a large scale heating test incorporating material fabric changes" Int. Jnl. Numer. Anal. Meth 2010

9 Horseman, S. T, "Study of gas migration in Mx80 buffer bentonite" SKB 1997

10 Andersson, C. G., "Status report, canister fabrication" Swedish Nuclear Fuel and Waste Manangement Co 2004

11 Fernandez, L., "Shotcrete development for low-pH cements" 161-171, 2005

12 Torbjörn, H. P., "Selective stabilization of deep core drilled boreholes using low-pH cement" ESDRED 122-137, 2005

13 IAEA, "Scientific and technical basis for the geological disposal of radioactive wastes" IAEA 2003

14 Bastiaens, W., "SELFRAC: Experiments and conclusions on fracturing, self-healing and self-sealing processes in clays" 32 (32): 600-615, 2007

15 Heitz, D., "SELFRAC (SE) experiment – Long-term plate load experiment, Mont Terri Project, Technical Report" Mont Terri Rock Laboratory 2003

16 Bühler, C., "SELFRAC (SE) Experiment – Long-term dilatometer experiment, Mont Terri Project, Technical Report" Mont Terri Rock Laboratory 2005

17 IAEA, "Report on radioactive waste disposal details" IAEA 1993

18 WNA, "Radioactive waste management"

19 Swedish Nuclear Fuel and Waste Manangement Co.SKB, "RD&D-programme 2007" SKBSwedish Nuclear Fuel and Waste Manangement Co 2007

20 Swedish Nuclear Fuel and Waste Manangement Co.SKB, "RD&D-programme 2004" SKBSwedish Nuclear Fuel and Waste Manangement Co 2004

21 Sievänen, U., "Optimization of technical properties of low-pH cementitious injection grout: Laboratory tests and pilot field test 3" Posiva Oy 2006

22 Olivella, S., "Numerical formulation for a simulator (CODE-BRIGHT) for the coupled analysis of saline media" 13 (13): 87-112, 1996

23 IAEA, "Nuclear technology review 2010" IAEA 2010

24 Bodansky, D., "Nuclear energy: Principles, practices and prospects, 2nd Ed" American Institute of Physics 2004

25 OECD Nuclear Energy Agency, "Nuclear energy outlook 2008" NEA 2008

26 Olivella, S., "Nonisothermal multiphase flow of brine and gas through saline media" 15 : 271-293, 1994

27 Hoch, A. R., "Modelling gas migration in compacted bentonite: GAMBIT club phase 3 final report" Posiva Oy 2004

28 Gallé, C., "Migration des gaz et pression de rupture dans une argile compactée destinée á la barriére ouvragée d’un stockage profond" 169 (169): 675-680, 1998

29 Bodén, A, "Low-pH injection grout for deep repositories" Posiva Oy 2006

30 Martin, P. L, "Large scale buffer material test: Mock-up experiment at CIEMAT" 81 (81): 298-316, 2005

31 Bäckblom, G, "KBS-3H-Excavation of two horizontal drifts at the Äspö Hard Rock Laboratory during year 2004-2005" Swedish Nuclear Fuel and Waste Manangement Co 2005

32 Kronlöf, A., "Injection grout for deep repositories-low pH cementitious grout for larger fractures: Testing effect of superplasticizer on technical performance" Posiva Oy 2005

33 Sánchez, M., "Implementation algorithm of a generalized plasticity model for swelling clays" 35 (35): 860-871, 2008

34 Davies, C, "Impact of the excavation disturbed or damaged zone (EDZ) on the performance of radioactive waste geological repositories" 2005

35 JNC, "H12 : Project to establish the scientific and technical basis for HLW disposal in Japan-project overview report" Japan Nuclear Cycle Development Institute 2000

36 European Commission, "Geological disposal of radioactive wastes produced by nuclear power: From concept to implementation" European Commission 2004

37 Falck, W. E, "Geological disposal of radioactive waste: Moving towards implementation, JRC Reference Report" JRC European Commission 2009

38 IAEA, "Geological disposal of radioactive waste safety requirements" IAEA 2006

39 Nuclear Energy Agency, "Geological disposal of radioactive waste : Review of developments in the last decade" OECE Nuclear Energy Agency 1999

40 National Academies, "Geological and geotechnical engineering in the new millennium : Opportunites for research and technological innovation" The National Academies Press 2006

41 Tsang, C. F., "Geohydromechanical processes in the excavation damaged zone in crystalline rock, rock salt, and indurated and plastic calys-in the context of radioactive waste disposal" 42 (42): 109-125, 2005

42 Pusch, R, "Gas migration through bentonite clay" Swedish Nuclear Fuel and Waste Manangement Co 1983

43 Pusch, R., "Gas migration through Mx-80 bentonite" Nagra 1985

44 Horseman, S. T., "Gas migration in Mx80 buffer bentonite" Materials Research Society 1997

45 Harrington, J. F, "Gas migration in KBS-3 buffer bentonite: Sensitivity of test parameters to experimental boundary conditions" Swedish Nuclear Fuel and Waste Manangement Co 2003

46 Gallé, C., "Gas breakthrough pressure in compacted Fo-Ca clay and interfacial gas overpressure in waste disposal context" 17 (17): 85-97, 2000

47 Hume, H. B., "Gas breakthrough in compacted Avolnea bentonite" University of Manitoba 1999

48 Huertas, F., "Full-scale engineered barrier experiment, Updated Final Report" Enresa 2006

49 Bernier, F., "Fractures and self-healing within the excavation disturbed zone in clays (SELFRAC), SELFRAC Project Final Report" European Commission 2007

50 Tanai, K., "Experimental study of gas permeabilities and breakthrough pressures in clays" Material Research Society 1997

51 OECD-Nuclear Energy Agency, "Engineered barrier systems and the safety of deep geological repositories, Sate-of-the-art Report" OECD-NEA 2003

52 IAEA, "Effects of radiation and environmental factors on the durability of materials in spent fuel storage and disposal" IAEA 2003

53 Orantie, K, "Durability 2007 injection grout investigation-Background description" Posiva Oy 2007

54 Alexander, W. R, "Deep geological disposal of radioactive waste, Radioactivity in the Environment Vol. 9" Elsevier 2007

55 Guimarães, L, "Coupled thermo-hydro-mechanical and chemical analysis of expansive clay subjected to heating and hydration" 66 (66): 341-372, 2007

56 Thomas, H. R, "Coupled thermo hydraulic mechanical behaviour of unsaturated soil, including expansive clays" 86-93, 1998

57 Rutqvist, J., "Coupled thermal-hydrologicalmechanical analysis of the Yucca Mountain Drift Scale Test - comparison of field results to predictions of four different models" 42 (42): 680-697, 2005

58 Gawin, D., "Coupled heat, water and gas flow in deformable porous media" 20 (20): 969-987, 1995

59 Guimarães, L., "Coupled THMC modelling of unsaturated swelling clays: Constitutive formulation and boundary value problems" 515-529, 2009

60 IAEA, "Characterization of radioactive waste forms and packages" IAEA 1997

61 Hudson, J. A., "Characterising and modelling the excavation damaged zone in crystalline rock in the context of radioactive waste disposal" 57 (57): 1275-1297, 2009

62 "CODE_BRIGHT User’s Manual" Technical University of Catalonia 2010

63 Autio, J, "Boring of full scale demonstration holes using a novel dry blind boring method" Swedish Nuclear Fuel and Waste Manangement Co 1996

64 Thomas, H. R, "An analysis of coupled heat, moisture and air transfer in a deformable unsaturated soil" 45 (45): 677-689, 1995

65 Gens, A., "A full scale in situ heating test for high level nuclear waste disposal: Observations, analysis and interpretation" 59 (59): 377-399, 2009

66 Gens, A, "A framework for the behaviour of unsaturated expansive clays" 29 (29): 1013-1032, 1992

67 Sánchez, M., "A double structure generalized plasticity model for expansive materials" 29 (29): 751-787, 2005

68 Alonso, E., "A constitutive model for partially saturated soils" 40 (40): 405-430, 1990

69 Graham, J., "A capillarity-advective model for gas breakthrough in clays" 64 (64): 273-286, 2002

70 Volckaert, G., "A Large-scale in situ demonstration test for repository sealing in an Argillaceous Host Rock, Reseal Phase I Project Report" European Commission 2000