TY - GEN
T1 - STUDY ON BUBBLE MIGRATION CHARACTERISTICS IN A LEAD-COOLED FAST REACTOR AFTER STEAM GENERATOR TUBE RUPTURE ACCIDENT
AU - Feng, Zhenyu
AU - Zhang, Dalin
AU - Jiao, Haoyu
AU - Chen, Yutong
AU - Lin, Yue
AU - Tian, Wenxi
AU - Qiu, Suizheng
AU - Su, Guanghui
N1 - Publisher Copyright:
© 2024 by ASME.
PY - 2024
Y1 - 2024
N2 - In this paper, the bubble migration characteristics of LFR after SGTR accidents are investigated based on the DPM. Firstly, the geometric and mesh models of the primary coolant system of the LFR are established, and the drag coefficient model of bubbles in the DPM is validated based on the bubble terminal velocities. Secondly, steady-state simulation of the primary coolant system of the LFR are performed to determine the temperature and velocity fields. Thirdly, the migration characteristics of the single bubble released from different positions of the SG are investigated, and the results show that bubbles on the horizontal plane at the window position were more easily entrained away from the window side, while those on the horizontal plane below the window were more easily entrained near the window side. Finally, the bubble groups with different diameters and different positions are studied. Bubbles larger than 0.3 mm leaking at any position of the SG cannot be entrained into the core, and bubbles larger than 0.45 mm will escape directly. Additionally, the higher the location of the rupture the lower the probability of bubbles entering the core.
AB - In this paper, the bubble migration characteristics of LFR after SGTR accidents are investigated based on the DPM. Firstly, the geometric and mesh models of the primary coolant system of the LFR are established, and the drag coefficient model of bubbles in the DPM is validated based on the bubble terminal velocities. Secondly, steady-state simulation of the primary coolant system of the LFR are performed to determine the temperature and velocity fields. Thirdly, the migration characteristics of the single bubble released from different positions of the SG are investigated, and the results show that bubbles on the horizontal plane at the window position were more easily entrained away from the window side, while those on the horizontal plane below the window were more easily entrained near the window side. Finally, the bubble groups with different diameters and different positions are studied. Bubbles larger than 0.3 mm leaking at any position of the SG cannot be entrained into the core, and bubbles larger than 0.45 mm will escape directly. Additionally, the higher the location of the rupture the lower the probability of bubbles entering the core.
KW - DPM
KW - LFR
KW - SGTR
KW - bubble migration characteristics
UR - https://www.scopus.com/pages/publications/85209590119
U2 - 10.1115/ICONE31-135457
DO - 10.1115/ICONE31-135457
M3 - 会议稿件
AN - SCOPUS:85209590119
T3 - Proceedings of 2024 31st International Conference on Nuclear Engineering, ICONE 2024
BT - Student Paper Competition
PB - American Society of Mechanical Engineers (ASME)
T2 - 2024 31st International Conference on Nuclear Engineering, ICONE 2024
Y2 - 4 August 2024 through 8 August 2024
ER -