Estimation of Input Material Accounting Uncertainty With Double-Stage Homogenization in Pyroprocessing |
Lee, Chaehun
(Korea Atomic Energy Research Institute)
Kim, Bong Young (Korea Atomic Energy Research Institute) Won, Byung-Hee (Korea Atomic Energy Research Institute) Seo, Hee (Jeonbuk National University) Park, Se-Hwan (Korea Atomic Energy Research Institute) |
1 | T. Inoue, H. Ohta, T. Yokoo, and L. Koch, "Fuel Cycle With Pyro-process From the Perspective of Resisting Proliferation", Proc. of the International Conference on Nuclear Energy Systems for Future Generation and Global Sustainability: GLOBAL 2005, 2562, October 9-13, 2005, Tsukuba, Ibaraki. |
2 | M. Suzuki, M. Hori, S. Nagaoka, and T. Kimura, "Study on Loss Detection Algorithms Using Tank Monitoring Data", J. Nucl. Sci. Technol., 46(2), 184-192 (2009). DOI |
3 | H.S. Lee, G.I. Park, K.H. Kang, J.M. Hur, J.G. Kim, D.H. Ahn, Y.Z. Cho, and E.H. Kim, "Pyroprocessing Technology Development at KAERI", Nucl. Eng. Technol., 43(4), 317-328 (2011). DOI |
4 | R. Hogg, "Mixing and Segregation in Powders: Evaluation, Mechanisms and Processes", KONA Powder Part. J., 27, 3-17 (2009). DOI |
5 | R. Hogg, "Characterization of Relative Homogeneity in Particulate Mixtures", Int. J. Miner. Process., 72(1-4), 477-487 (2003). DOI |
6 | H.S. Shin, S.K. Ahn, D.Y. Song, T.H. Lee, H.D. Kim, J.S. Seo, H.I. Im, and J.N. Jang. Analysis of the Present Status of Conceptually Designed Pyroprocessing Facilities for Determining a Reference Pyroprocessing Facility, Korea Atomic Energy Research Institute Report, KAERI/TR-3985/2009 (2009). |
7 | K. Zhao, M. Penkin, C. Norman, S. Balsley, K. Mayer, P. Peerani, C. Pietri, S. Tapodi, Y. Tsutaki, M. Boella, G. Renha Jr., and E. Kuhn. International Target Values 2010 for Measurement Uncertainties in Safeguarding Nuclear Material, International Atomic Energy Agency Report, STR-368 (2010). |
8 | B.Y. Han, H.S. Shin, and H.D. Kim, "Analysis of Measurement Uncertainty of Material Unaccounted for in the Reference Pyroprocessing Facility", Nucl. Technol., 182(3), 369-377 (2013). DOI |
9 | S.K. Ahn, C.S. Seo, E. Kwon, and H.D. Kim, "Linkage Options Between Unit Process to Enhance Proliferation Resistance of Pyroprocessing", Ann. Nucl. Energy, 75, 184-188 (2015). DOI |
10 | P.M.C. Lacey, "Developments in the Theory of Particle Mixing", J. Appl. Chem., 4(5), 257-268 (1954). DOI |
11 | J.M. Ottino and D.V. Khakhar, "Mixing and Segregation of Granular Materials", Annu. Rev. Fluid Mech., 32, 55-91 (2000). DOI |
12 | B.Y. Han, S.H. Na, S.H. Park, H.D. Kim, D.Y. Lee, Y.S. Lee, J.M. Shin, and G. Park, "Measurement of Homogeneity of U and Pu Isotopes in PWR Spent Fuel Powder Mixture", J. Nucl. Sci. Technol., 51(10), 1205-1211 (2014). DOI |
13 | C.B. Lee and Y.H. Jung, "An Attempt to Explain the High Burnup Structure Formation Mechanism in UO2 Fuel", J. Nucl. Mater., 279(2-3), 207-215 (2000). DOI |
14 | C.B. Lee, D.H. Kim, J.S. Song, J.G. Bang, and Y.H. Jung, "RAPID Model to Predict Radial Burnup Distribution in LWR UO2 Fuel", J. Nucl. Mater., 282(2-3), 196-204 (2000). DOI |
15 | T. Inoue and L. Koch, "Development of Pyroprocessing and its Future Direction", Nucl. Eng. Technol., 40(3), 183-190 (2008). DOI |