References
- D. Campolina, E.F. Faria, A.A.C. Santos, V. Vasconcelos, M.P.V. Franco, M.S. Dias, et al., Parametric study of enriched gadolinium in burnable neutron poison fuel rods for Angra-2, Ann. Nucl. Energy 118 (2018 Aug) 375-380.
- P. Trinuruk, T. Obara, Particle-type burnable poisons for thorium-based fuel in HTGR, Energy Procedia 71 (2015 May) 22-32.
- A.H. Fadaei, Investigation of burnable poisons effects in reactor core design, Ann. Nucl. Energy 38 (10) (2011 Oct) 2238-2246.
- W. Hu, B. Liu, X. Ouyang, J. Tu, F. Liu, L. Huang, et al., Minor actinide transmutation on PWR burnable poison rods, Ann. Nucl. Energy 77 (2015 Mar) 74-82.
- I.L. Simanullang, T. Obara, Burnup performance of a PBR with an accumulative fuel loading scheme utilizing burnable poison particles in UO2 and ROX fuels, Energy Procedia 131 (2017 Dec) 61-68.
- Westinghouse Electric Corporation, The Westinghouse Pressurized Water Reactor Nuclear Power Plant, 1984. Pittsburgh, Pennsylvania.
- W. Lehmann, I. Shapiro, Isotopic composition of boron and its atomic weight, Nature 183 (1959 May) 1324, https://doi.org/10.1038/1831324a0.
- Isotopes of the Element Gadolinium, Thomas jefferson national accelerator facility. https://education.jlab.org/itselemental/iso064.html. (Accessed 27 October 2018).
- B. Goddard, W. Charlton, S. McDeavitt, Development of a real-time detection strategy for process monitoring during nuclear fuel reprocessing using the UREX+3a method, Nucl. Eng. Des. 240 (11) (2010) 3904-3909, https://doi.org/10.1016/j.nucengdes.2010.08.018.
- A. Massih, Models for MOX Fuel Behaviour, Swedish Nuclear Power Inspectorate, 2006 Jan. SKI-R-06/10-SE.
- Mixed Oxide (MOX) Fuel, World nuclear association. http://www.worldnuclear.org/information-library/nuclear-fuel-cycle/fuel-recycling/mixedoxide-fuel-mox.aspx. (Accessed 27 October 2018).
- Nuclear Data Center, Korea Atomic Energy Research Institute, http://atom.kaeri.re.kr. (Accessed 27 October 2018).
- C. Bathke, et al., The attractiveness of materials in advanced nuclear fuel cycles for various proliferation and theft scenarios, Nucl. Technol. 176 (2011) 5-30.
- U.S. Department of Energy, Final Environmental Impact Statement for a Geologic Repository for the Disposal of Spent Nuclear Fuel and High-Level Radioactive Waste at Yucca Mountain, Nye County, Nevada, Office of Civilian Radioactive Waste Management, Feb. 2002. DOE/EIS-0250.
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