• Title of article

    Nuclear and thermal–hydraulic characteristics for an LMR core fueled with 20% enriched uranium metallic fuel

  • Author/Authors

    Kim، نويسنده , , Young-In; Kim، نويسنده , , Young-Gyun; Kim، نويسنده , , Sang-Ji; Kim، نويسنده , , Young-Jin ، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 1999
  • Pages
    19
  • From page
    679
  • To page
    697
  • Abstract
    As a part of the core design development of KALIMER (150 MWe), the KALIMER core was initially designed with 20% enriched uranium metallic fuel. In this core design, the primary emphasis was given to realize the metallic fueled core design to meet the specific design requirements; 20% and below uranium enrichment and a minimum fuel cycle length of one year. The core was defined by a radially homogeneous core configuration incorporated with several passive design features to give inherent passive means of negative reactivity insertion. The core nuclear performance based on a once-through equilibrium fuel cycle scenario shows that the core has an average breeding ratio of 0.67 and maximum discharge burnup of 47.3 MWD/kg. When comparing with conventional plutonium metallic fueled cores of the same power level, the present uranium metallic fueled core has a lower power density due to its increased physical core size. The negative sodium void reactivity over the core shows a beneficial potential to assure inherent safety characteristics. The transition from the uranium startup to equilibrium cycle is feasible without any design change. Core nuclear performance characteristics in the present core design are attributed to the specific design requirements of enrichment restriction and fuel cycle length.
  • Keywords
    hydraulics , Accident prevention , Liquid metal cooled reactors , Reactivity (nuclear) , Nuclear fuel enrichment , Nuclear fuel cycle , thermal hydraulics , Reactor cores , Nuclear fuels , uranium
  • Journal title
    Annals of Nuclear Energy
  • Serial Year
    1999
  • Journal title
    Annals of Nuclear Energy
  • Record number

    405340