References
- J.Y. Lee, D.K. Cho, H.J. Choi, J.W. Choi, and L.M. Wang, "Analyses of disposal efficiency based on nuclear spent fuel cooling time and disposal tunnel/pit spacing for the design of a geological repository", Prog. Nucl. Energy, 53(4), 361-367 (2011). https://doi.org/10.1016/j.pnucene.2011.01.005
- Svensk Karnbranslehantering AB. Buffer and backfill process report for the safety assessment SR-Can, SKB Technical Report, 27-33, SKB-TR-06-18 (2006).
- M. Juvankoski and K. Ikonen. Buffer Production Line 2012 - Design, Production and Initial State of the Buffer, POSIVA Oy Report, 73-74, POSIVA 2012-17 (2012).
- R. Heikki. Design analysis report for the canister, Svensk Karnbranslehantering AB Technical Report, 5-16, SKB-TR-10-28 (2010).
- H. Raiko. Disposal Canister for Spent Nuclear Fuel-Design Report, POSIVA Oy Report, 15-16, POSIVA 2005-02 (2005).
- Nuclear Waste Management Organization. ThermoMechanical Analysis of a Multi-Level Repository for Used Nuclear Fuel, NWMO Report, 10-25, NWMOTR-2012-19 (2012).
- J.Y. Lee, D. Cho, H. Choi, and J. Choi, "Concept of a Korean Reference Disposal System for Spent Fuels", J. Nucl. Sci. Technol., 44(12), 1565-1573 (2007). https://doi.org/10.3327/jnst.44.1565
- H.J. Choi, J.Y. Lee, D.K.Cho, S.K. Kim, S.S. Kim, K.Y. Kim, J.T. Jeong, M.S. Lee, J.W. Choi, J.W. Lee, K.S. Chun, and P.O. Kim. Korean Reference HLW Disposal System, Korea Atomic Energy Research Institute Technical Report, 53-73, KAERI/TR-3563/2008 (2008).
- J.Y. Lee, I.Y. Kim, H.J. Choi, and D.K. Cho, "An Improved Concept of Deep Geological Disposal System Considering Arising Characteristics of Spent Fuels from Domestic Nuclear Power Plants", J. Nucl. Fuel Cycle Waste Technol., 17(4), 405-418 (2019). https://doi.org/10.7733/jnfcwt.2019.17.4.405
- G.D. Sizgek, "Three-dimensional thermal analysis of in-floor type nuclear waste repository for a ceramic waste form", Nucl. Eng. Des., 235(1), 101-109 (2005). https://doi.org/10.1016/j.nucengdes.2004.09.010
- Dassault systems, Abaqus/CAE User's manual, Dassault systems simulia Corp. (2019).
- I.Y. Kim, H.A. Kim, H.J. Choi. Evaluation on thermal performance and thermal dimensioning of direct deep geological disposal system for high burn-up spent nuclear fuel, Korea Atomic Energy Research Institute Technical Report, 3-16, KAERI/TR-5230/2013 (2013).
- D.K. Cho, J.W. Kim, I.Y. Kim, and J.Y. Lee, "Investigation of PWR Spent Nuclear Fuels for the Design of Deep Geological Repository", J. Nucl. Fuel Cycle Waste Technol., 17(3), 339-346 (2019). https://doi.org/10.7733/jnfcwt.2019.17.3.339
- H. J. Choi, I.Y. Kim, and H.A. Kim. Thermal Analyses of a Geological Disposal System for High-level Waste under Abnormal Overheating Conditions, Korea Atomic Energy Research Institute Technical Report, 8-14, KAERI/TR-5635/2014 (2014).
- J.Y. Lee, M.S. Lee, I.Y. Kim, and D.K. Cho. An Engineered Barrier Concept of Reference Deep Geological Disposal System for Hi-burnup Spent Fuels, Korea Atomic Energy Research Institute Technical Report, 45-49, KAERI/TR-7405/2018 (2018).
- Posiva and Svensk Karnbranslehantering AB, Mechanical design analysis for the canister, 41-57, Posiva SKB Report 04 (2018).
- M. Unosson. Investigation of criteria for handling and the principal of mechanical requirements of the copper shell, SKBdoc 1492223 ver 1.0 (2017).
- M. Smedstad. The use of nodular ductile cast iron in storage canisters for spent nuclear fuel in conjunction with ASME Section III. FSD102131201, Rev 07, FS Dynamics Sweden AB, SKBdoc 1527035 ver 1.0 (2016).
- O. Martin, K.-F. Nilsson, and N. Jaksic, "Numerical simulation of plastic collapse of copper castiron iron canister for spent nuclear fuel", Eng. Fail. Anal., 16(1), 225-241 (2009). https://doi.org/10.1016/j.engfailanal.2008.03.005
- Svensk Karnbranslehantering AB. Design, production and initial state of the canister, SKB Technical Report, 37-45, SKB-TR-10-14 (2010).
- C.S. Lee, W.J. Cho, J.S. Kim, and H.J. Choi. Characterization of thermal and mechanical properties of granite at KAERI Underground research Tunnel, Korea Atomic Energy Research Institute Technical Report, 20-29, KAERI/TR-5566/2014 (2014).