2D MPS method analysis of ECOKATS-V1 spreading with crust fracture model

Jubaidah, Yuki Umazume, Nozomu Takahashi, Xin Li, Guangtao Duan, Akifumi Yamaji

研究成果: Article査読

抄録

Understanding the ex-vessel spreading behavior of molten core materials (corium) on the reactor containment floor is of great importance for designing, managing, and evaluating severe accidents of light water reactors. Among some simulated ex-vessel corium spreading experiments, temporal termination and restart of the flow (stop-and-go) were highlighted in the ECOKATS-V1 experiment, in which the simulant oxide melt (consisted of 41% of Al2O3, 24% of SiO2, 19% of CaO, and 16% of FeO) was released into a 1-D channel, and the spreading behavior seemed to have temporarily stopped and restarted following crust formation and breach at the spreading leading edge. The preceding study developed crust formation and breach models for the Lagrangian-based Moving Particle Semi-Implicit (MPS) method to analyze such spreading. However, the applicability of the models was limited due to numerical instability. In this study, the timestep control of the MPS method is revised by newly introducing particle number density control, which can efficiently reduce timestep to prevent instability when the crust is formed or breached in low viscous flow. The new method is successfully applied to ECOKATS-V1 spreading with different crust formations and breach conditions. Namely, with different Solidification Viscosity Threshold (SVT) and the Crust Fracture Stress Threshold (CFST) of the melt. The former determines the threshold viscosity above which the fluid is regarded as solid (crust). The latter determines the mechanical strength of the crust at the leading edge of the spreading front. There remain issues for future studies to further develop the method for more quantitative discussions.

本文言語English
論文番号111251
ジャーナルNuclear Engineering and Design
379
DOI
出版ステータスPublished - 2021 8 1

ASJC Scopus subject areas

  • 核物理学および高エネルギー物理学
  • 原子力エネルギーおよび原子力工学
  • 材料科学(全般)
  • 安全性、リスク、信頼性、品質管理
  • 廃棄物管理と処理
  • 機械工学

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