• Title of article

    Investigation of Polonium Decontamination from Stainless Steel Surfaces Using the Baking Method

  • Author/Authors

    Sekimoto، Hiroshi نويسنده , , Miura، Terumitsu نويسنده , , Obara، Toru نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2006
  • Pages
    -77
  • From page
    78
  • To page
    0
  • Abstract
    Polonium contamination on material surfaces has been considered one of the problems in the use of lead-bismuth eutectic (LBE) as a coolant and/or target in nuclear systems. Neutron-irradiated LBE contains polonium and can contaminate material surfaces of the primary loop in nuclear systems. Some methods for removal of polonium from neutron-irradiated LBE have been investigated. In this paper, the theory and the effectiveness of the baking method for polonium decontamination of a material surface contaminated by neutron-irradiated LBE are described. Theoretical investigation of the baking method was performed using Langmuirʹs equation. The effectiveness of the baking method was investigated by baking experiments using Type 316 stainless steel plates contaminated by neutron-irradiated LBE. The experimental results indicated that the baking method is effective for polonium decontamination when the baking temperature is more than 500°C in a vacuum condition (0.4 Pa). The effective temperature for polonium decontamination of Type 316 plates differed from that of quartz glass plates previously reported. Comparing the experimental results and calculations of the evaporation rate of polonium compound by Langmuirʹs equation showed that the difference in effective temperatures was due to the different chemical forms of polonium, i.e., elemental polonium and lead polonide.
  • Keywords
    high-resolution transmission electron microscopy , magnesium-cupper-yttrium , amorphous , precipitate , long period stacking order , high-angle annular detector dark-field scanning transmission electron microscopy
  • Journal title
    NUCLEAR TECHNOLOGY
  • Serial Year
    2006
  • Journal title
    NUCLEAR TECHNOLOGY
  • Record number

    30090