A Proposal on Evaluation Method of Neutron Absorption Performance to Substitute Conventional Neutron Attenuation Test |
Kim, Jae Hyun
(Department of Nuclear Engineering, Hanyang University)
Kim, Song Hyun (Nuclear Fuel Cycle Waste Treatment Research Division, Research Reactor Institute, Kyoto University) Shin, Chang Ho (Department of Nuclear Engineering, Hanyang University) Choe, Jung Hun (Ionizing Radiation Center, Nuclear Fuel Cycle Waste Treatment Research Division, Korea Atomic Energy Research Institute) Cho, In-Hak (Ionizing Radiation Center, Nuclear Fuel Cycle Waste Treatment Research Division, Korea Atomic Energy Research Institute) Park, Hwan Seo (Ionizing Radiation Center, Nuclear Fuel Cycle Waste Treatment Research Division, Korea Atomic Energy Research Institute) Park, Hyun Seo (Ionizing Radiation Center, Korea Research Institute of Standards and Science) Kim, Jung Ho (Ionizing Radiation Center, Korea Research Institute of Standards and Science) Kim, Yoon Ho (Ionizing Radiation Center, Korea Research Institute of Standards and Science) |
1 | Kim SH, Kim JH, Shin CH, Kim JK, Park HS, Kim SY. A feasibility study on the criticality control method using radioactive vitrified forms for spent fuel storage. Nucl. Eng. Des. 2014;280:644-650. DOI |
2 | Kim JH, Kim SH, Shin CH, Choe JH, Cho IH, Park HS. A study on applicability of a new neutron absorber based on radioactive vitrified forms for PLUS7 and WH spent fuel storages. Korean Radioactive Waste Society. Incheon, Korea. May 27-29, 2015. |
3 | American Society Testing and Material. Standard practice for qualification and acceptance of boron based metallic neutron absorbers for nuclear criticality control for dry cask storage systems and transportation packaging. C1671-07. 2013;1-2. |