References
- H. Jung, H.J. Kim, J.Y. Cheong, E.Y. Lee, and J.H. Yoon, "Analysis of Siting Criteria of Overseas Geological Repository (II): Hydrogeology", J. Nucl. Fuel Cycle Waste Technol., 11(3), 253-257 (2013). https://doi.org/10.7733/jnfcwt-k.2013.11.3.253
- National Academy of Sciences, The Disposal of Radio\-active Waste on Land (1957), Accessed Jun. 29 2017. Available from: https://www.nap.edu/ catalog/10294/the-disposal-of-radioactive-waste-on-land
- OECD Nuclear Energy Agency, Objectives, Concepts and strategies for the Management of Radioactive Waste Arising from Nuclear Power Programmes, OECD-NEA (1977).
- J. Lee, M. Lee, H. Choi, K. Kim, and D. Cho, "Preliminary Evaluation of Domestic Applicability of Deep Borehole Disposal System", J. Nucl. Fuel Cycle Waste Technol., 16(4), 491-505 (2018). https://doi.org/10.7733/jnfcwt.2018.16.4.491
- International Atomic Energy Agency, Disposal of Radioactive Waste, SSR-85 (2011).
- Radioactive Waste Management , Geological Disposal - Overview of international siting process 2017, NDA Report no. NDA/RWM/157 (2017).
- Svensk Karnbranslehantering AB, Siting of a Deep Repository for Spent Nuclear Fuel, SKB Technical Report, TR 95-34 (1995).
- Nagra, The Nagra Research, Development and Demonstration (RD&D) Plan for the Disposal of Radioactive Waste in Switzerland, Nagra Technical Report 16-02 (2016).
- J.H. Lee, J.H. Yoon, S.G. Kim, S. Kim, K.Y. Seong. and S.J. Lee, "The Role of Underground Research Laboratory Contributing to Siting Process in France", J. Korean Soc. Miner. Energy Resour. Eng., 54(4), 358-366 (2017). https://doi.org/10.12972/ksmer.2017.54.4.358
- Posiva, The Site Selection process for a Spent Fuel Repository in Finland - Summary Report, Report code Posiva 2000-15 (2000).
- RWMC, State-of-the-Art Report on geological disposal of High-Level Radioactive Waste in Foreign Countries, http://www.enecho.meti.go.jp/category/electricity_and_gas/nuclear/rw/ (2018) (In Japanese).
- METI: Summary of Requirement and Criteria for Nationwide Map of Scientific Features for Geological Disposal: Advisory Committee for National Resources and Energy, Electricity and Gas Industry Committee, Tokyo (2017) (In Japanese).
- Joint Negotiating Committee, H12: Project to establish the scientific and technical basis for HLW disposal in Japan, JNC-TN1410-2000-001-004 (2000).
- Japan Atomic Energy Agency and The Federation of Electric Power Companies of Japan, Second progress report on research and development for TRU waste disposal in Japan - repository design, safety assessment and means of implementation in the generic phase-, JAEA-Review 2007-010 (2007).
- Atomic Energy Commission (AEC), Review of the H12: Project to establish the scientific and technical basis for HLW disposal of radioactive waste, Specified in the framework for nuclear policy, Policy Evaluation Committee of the Japan Atomic Energy Commission (In Japanese) (2008).
- NUMO, Safety of the geological disposal project 2010 - Safe geological disposal based on reliable technologies, NUMO-TR-13-05, 148p (2013).
- T. Fujiyama, S. Suzuki, A. Degruch, and H. Umeki, "Overview of the NUMO safety case at pre-siting stage", Proceedings of 6th East Asia Forum on Radwaste Management, November 27-29, 2017, Osaka.
- OECD Nuclear Energy Agency, Japan's Siting Process for the Geological Disposal of High-level Radioactive waste: An International Review, NEA No. 7331 (2016).
- Svensk Karnbranslehantering AB, Design Premises for a KBS-3V Repository Based on Results from the Safety Assessment SR-Can and Some Subsequent Analysis, SKB Technical Report, TR 09-22 (2009).
- H. Choi, J. Lee, J. Jeong, M. Lee, H. Choi, and D. Kook, 2009 State-of-the-Art Report on the Development of the Geological Disposal System for High Level Waste, Korea Atomic Energy Research Institute report, KAERI/AR-845/2009, 3-103 (2017).
- Nuclear Waste Management Organization of Japan, Geological Disposal of TRU Waste, Japan (2008).
- METI. 28 July 2017. "Nationwide Map of Scientific Features relevant for Geological Disposal", Accessed Oct 1 2019. Available from: http://www.enecho.meti.go.jp/category/electricityandgas/nuclear/rw/kagakutekitokuseimap/maps/kagakutekitokuseimap.pdf (In Japanese).
- Geological Survey of Japan, Volcanoes of Japan (3rd Edition), Geological Survey of Japan (2013) (In Japances).
- Ogata, S and Hohsho, S. "Fault Activity Evaluation in the Case of electric Power Plants", J. the Japan Soc. Eng. Geology, 22(1), 67-87 (1981) (In Japances). https://doi.org/10.5110/jjseg.22.67
- P. Huybrechts, "Sea-level Change at the LGM from Ice-dynamic Reconstructions of the Greenland and Antarctic Ice Sheets during the Glacial Cycles", Qaut. Sci.Rve., 21, 203-231 (2002). https://doi.org/10.1016/S0277-3791(01)00082-8
- N. Taniguch, M. Morimoto, and A. Honda, "A study of the Condition for the Passivation of Carbon Steel in Bentonite", JNC, Tokyo (1999).
- M. Takehiro, H. Hideaki, S. Hiromitsu, D. Akira, and U. Hiroyuki, 2017, "Scientific Basis for Nationwide Screening of Geological Disposal sites in Japan", Proceedings of 6th East Asia Forum on Radwaste Management, November 27-29, 2017, Osaka.
- NDA, National geological screening for a GDF, https://www.gov.uk/guidance/ about-national-geological-screening-ngs/ (2019).