Frontiers in Energy Research (Jun 2022)

Coupled Analysis of Heat Transfer in a Molten Pool With Three-Layer Configuration

  • Jian Deng,
  • Dahuan Zhu,
  • Yuejian Luo,
  • Hongping Sun,
  • Ming Zhang,
  • Lili Liu,
  • Qingan Xiang,
  • Xiaoli Wu,
  • Youyou Xu,
  • Qingwen Xiong

DOI
https://doi.org/10.3389/fenrg.2022.915450
Journal volume & issue
Vol. 10

Abstract

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Understanding a reliable description of the heat transfer in the molten pool with three-layer configuration is inevitable for the design of severe accident mitigation measures in research reactors, such as IVR-ERVC. However, investigations on a thick lower metallic layer are scarce. Thus, further studies on heat transfer in a molten pool with a thick lower metallic layer are highly required, based on previous severe accident studies in light water reactors. This study conducts a numerical simulation of heat transfer in the molten pool with a thick lower metallic layer during a severe accident, combining model development, code verification, and code application. First, the MPCAP code has been developed, based on the coupled simulation of natural convection inside the molten pool, two-dimensional heat conduction in the RPV lower head, and convection outside the reactor vessel wall. Then, a verification case has been conducted using three-layer configuration in AP1000. The AP1000 verification case indicates that the MPCAP code predicts important parameters in the molten pool well.

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