Numerical Simulation of Hydraulic Behavior in Coolant Jet-Melt Interaction
Abstract: Pouring coolant into molten material is one of the patterns in fuel coolant interaction which is affected by jet velocity and density ratio. The hydraulic behaviors of coolant jet-melt interaction are simulated by VOF method based on FLUENT15.0. The simulation results agree with Park’s experiments well. The parameter effects on hydraulic behaviors are discussed. As jet velocity and density ratio increase, the final depth increases. The conclusions are helpful to understand the parameter influence and the fluctuation mechanism of final penetration depth.
文章引用: 周 源 , 陈竞覃 , 汪杨乐 (2017) 水刺入液态金属水力学数值模拟。 应用物理， 7， 213-222. doi: 10.12677/APP.2017.78028
 Fletcher, D.F. (1995) Steam Explosion Triggering: A Review of Theoretical and Experimental Investigations. Nuclear Engineering and Design, 155, 27-36.
Sibamoto, Y., Kukita, Y. and Nakamura, H. (2012) Small-Scale Experiment on Subcooled Water Jet Injection into Molten Alloy by Using Fluid Temperature-Phase Coupled Measurement and Visualization. Journal of Nuclear Science and Technology, 44, 1059-1069.
 Park, H.S., Yamano, N. and Maruyama, Y. (1998) Study on Energetic Fuel-Coolant Interaction in the Coolant Injection Mode of Contact. Proceedings of the 6th International Conference on Nuclear Engineering (ICONE-6), San Diego, 10-15 May 1998, Article ID: 16813.
Songbai, C., Ken-ichi, M. and Mikio, I. (2014) An Experimental Study on Local Fuel-Coolant Interactions by Delivering Water into a Simulated Molten Fuel Pool. Nuclear Engineering and Design, 275, 133-141.
Songbai, C., Ken-ichi, M. and Mikio, I. (2015) The Effect of Coolant Quantity on Local Fuel-Coolant Interactions in a Molten Pool. Annals of Nuclear Energy, 75, 20-25.
Sachin, T., Louis, M. and Weimin, M. (2015) A Numerical Simulation of Jet Breakup in Melt Coolant Interactions. Annals of Nuclear Energy, 80, 467-475.
Hirokazu, I., Seiichi, K. and Yoshiaki, O. (2001) Numerical Analysis of Jet Injection Behavior for Fuel Coolant Interaction Using Particle Method. Journal of Nuclear Science and Technology, 38, 174-182.
 Yuan, Z., Mingjun, Z. and Xing, F. (2016) A Numerical Simulation of water jet injection Behavior in Fuel-Coolant Interaction. Journal of Nuclear Science and Technology, 54, 174-181.
 沈正祥, 李金柱, 吕中杰, 黄风雷. 水动力作用下低速射流碎化的数值模拟[J]. 计算力学学报, 2013, 30(2): 308- 312.