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A GoldSim Model for the Radionuclide Migration of LILW Disposal Site in Gyeongju

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한국방사성폐기물학회 학술논문요약집 (Abstracts of Proceedings of the Korean Radioactive Wasts Society)
한국방사성폐기물학회 (Korean Radioactive Waste Society)
초록

The chelating agent and cellulose generated during the operating and decommissioning of a NPP’s form organic complexing compounds. That is accelerate the migration of radionuclide and have a bad influence of LILW disposal site. In this study, the GoldSim (RT module) program was used for the effects of radionuclide migration by organic complex compounds as described above. A scenario was derived for evaluation, and a conceptual design (Concept Art) of the GoldSim model was performed. 1) Derivation of the scenario. For the scenario, we selected a groundwater flow scenario in which groundwater flows in and radionuclides flow out after a lapse of time after the operation of the LILW disposal site in Gyeongju is closed. The inflowing groundwater comes into contact with radioactive waste and the radionuclides dissolve. The dissolved nuclides move past the drum and out of the disposal vessel due to the advection phenomenon. Radionuclides spilled from the disposal vessel pass through the silo internal filler (crushed stone) and reach the engineering barrier concrete. Radionuclides from degraded concrete are scenarios that move along the flow of groundwater to the near and far. 2) Radionuclide migration concept design. The radionuclide movement section was largely designed with Inner (Inside the silo), Near and Far. (A) Inner (Inside the silo) This section is where radionuclides move from the radiation source to the engineering barrier (silo). The detailed migration path was designed to allow radioactive nuclides to flow out and move to waste drums, solidified matrix of indrum, disposal vessel fillers, disposal vessels, silo fillers (crushed stones), and engineered barriers (concrete). The LILW disposal site in Gyeongju has a total of 6 silos. Each of the 6 silos was modeled and designed in consideration of the structural information and positional impact. (B) Near & Far. In generally design, the near is form source term to engineered barrier and far is beyond the engineered barrier. In this study, the near and far designed by radionuclide in the section from the beyond the engineering barrier (silo) to the sea through the groundwater flow through the natural rock. Especially in the case of near, the design was made by applying the position of the natural rock sampling drill hole.

저자
  • Kyutae Park(Orbitech, 1130, Beoman-ro, Geumcheon-gu, Seoul)
  • Hyejin Kim(Orbitech, 1130, Beoman-ro, Geumcheon-gu, Seoul)
  • Sungryul Kim(Orbitech, 1130, Beoman-ro, Geumcheon-gu, Seoul)
  • Jungmin Oh(Orbitech, 1130, Beoman-ro, Geumcheon-gu, Seoul)
  • Baro Lee(Orbitech, 1130, Beoman-ro, Geumcheon-gu, Seoul)
  • Jiung Kim(Orbitech, 1130, Beoman-ro, Geumcheon-gu, Seoul)
  • Hyunyoung Shin(Orbitech, 1130, Beoman-ro, Geumcheon-gu, Seoul)
  • Wookjae Yoo(Orbitech, 1130, Beoman-ro, Geumcheon-gu, Seoul) Corresponding author
  • Sangsoo Han(SierraBASE, 14, Techno saneop-ro 55beon-gil, Nam-gu, Ulsan)