• Title of article

    Development of a code-agnostic computational infrastructure for the dynamic generation of accident progression event trees

  • Author/Authors

    Umit Catalyurek، نويسنده , , Umit and Rutt، نويسنده , , Benjamin and Metzroth، نويسنده , , Kyle and Hakobyan، نويسنده , , Aram and Aldemir، نويسنده , , Tunc and Denning، نويسنده , , Richard and Dunagan، نويسنده , , Sean and Kunsman، نويسنده , , David، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2010
  • Pages
    17
  • From page
    278
  • To page
    294
  • Abstract
    Analysis of dynamic accident progression trees (ADAPT) is a mechanized procedure for the generation of accident progression event trees. Use of ADAPT substantially reduces the manual and computational effort for Level 2 probabilistic risk assessment (PRA) of nuclear power plants; reduces the likelihood of input errors; determines the order of events dynamically; and treats accidents in a phenomenology consistent manner. ADAPT is based on the concept of dynamic event trees which use explicit modeling of the deterministic dynamic processes that take place within the plant (through system simulation codes such as MELCOR, RELAP) for the modeling of stochastic system evolution. The computational infrastructure of ADAPT is presented, along with a prototype implementation of ADAPT using MELCOR for the PRA modeling of a station blackout in a pressurized water reactor. The computational infrastructure allows for flexibility in linking with different simulation codes, parallel processing of the scenarios under consideration, on-line scenario management (initiation as well as termination) and user-friendly graphical capabilities.
  • Keywords
    Accident progression event trees , MELCOR , probabilistic risk assessment , Dynamic event trees
  • Journal title
    Reliability Engineering and System Safety
  • Serial Year
    2010
  • Journal title
    Reliability Engineering and System Safety
  • Record number

    1572666