Nuclear Engineering and Technology (Jul 2023)

Evaluation of jet breakup length with a CFD code under steam generation condition in a pre-flooded cavity

  • Jeong-Hyeon Eom,
  • Gi-Young Tak,
  • In-Sik Ra,
  • Huu Tiep Nguyen,
  • Hae-Yong Jeong

Journal volume & issue
Vol. 55, no. 7
pp. 2498 – 2503

Abstract

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When the reactor vessel is penetrated in a severe accident of light water reactor, the molten fuel-coolant interaction including the jet breakup occurs and the jet breakup length becomes one of the important parameters. Most numerical studies on jet breakup process have been carried out using dedicated computer codes. Some researchers are trying to apply commercial CFD codes to their investigations on comprehensive jet breakup process. However, the complexity of the phenomena limits the CFD application only to hydrodynamic aspects. In the present study, numerical analysis of jet breakup under vapor generation is pursued using the STAR-CCM + code. The obtained CFD prediction of the MATE09 experiment shows jet breakup progression patterns consistent to the images taken in the experiment. Further, the predicted positions of leading head, which determine the jet breakup length, are in good agreement with the MATE 09 data. The investigation of hydrodynamic effects on the jet breakup with higher jet velocity results in a stronger shear force and earlier jet breakup process even though there exists the vapor pocket around the corium jet. In future studies, the effect of vapor intensity on the jet breakup length would be investigated further by changing other parameters.

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