C (Aug 2023)

Diffusion Behavior of Iodine in the Micro/Nano-Porous Graphite for Nuclear Reactor at High Temperature

  • Ming-Bo Qi,
  • Peng-Fei Lian,
  • Peng-Da Li,
  • He-Yao Zhang,
  • Jin-Xing Cheng,
  • Qing-Bo Wang,
  • Zhong-Feng Tang,
  • T. J. Pan,
  • Jin-Liang Song,
  • Zhan-Jun Liu

DOI
https://doi.org/10.3390/c9030081
Journal volume & issue
Vol. 9, no. 3
p. 81

Abstract

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The diffusion behavior of iodine in micro/nano-porous graphite under high-temperature conditions was studied using analysis methods such as Rutherford backscattering Spectrometry, scanning electron microscopy, X-ray diffraction, and Raman spectroscopy. The results indicate that iodine diffusion leads to the Lattice Contractions in Microcrystals, a decrease in interlayer spacing, and a rise of defect density. And the reversal or repair of microstructure change was observed: the microcrystal size of the graphite increases, the interlayer spacing appears to return to the initial state, and the defect density decreases, upon diffusion of iodine out of iodine-loaded graphite. The comparative study comparing the iodine diffusion performance of nanoporous graphite (G400 and G450) between microporous graphite (G500), showed that nanoporous graphite exhibits a better barrier to the iodine diffusion. The study on the diffusion behavior of iodine in micro/nano-porous graphite holds substantial academic and engineering value for the screening, design, and performance optimization of nuclear graphite.

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