Mechanical Engineering Journal (Jan 2024)

Presentation and first outcomes of the FIGARO research program that aims at assessing the airborne release fraction of plutonium dioxide during glove box fires in nuclear fuel fabrication and reprocessing plants

  • Pascal ZAVALETA,
  • Mickaël COUTIN,
  • Thomas GÉLAIN,
  • Jocelyne LACOUE,
  • Philippe MARCH,
  • Héléna MASTORI,
  • Hussain NAJMI,
  • Marc PILLER,
  • William PLUMECOCQ,
  • Emmanuel PORCHERON,
  • Mamadou SOW,
  • Sylvain SUARD

DOI
https://doi.org/10.1299/mej.23-00463
Journal volume & issue
Vol. 11, no. 2
pp. 23-00463 – 23-00463

Abstract

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Fires in nuclear fuel fabrication and reprocessing plants can cause the rupture of the glove box (GB) containment with a risk of dispersion of plutonium dioxide (PuO2) within the facility. Fire safety analyses need to assess the resulting radiological consequences to strengthen the appropriate prevention and protection measures in these plants. To this end, the French Institute for Radiation Protection and Nuclear Safety (IRSN), in partnership with the Japanese Nuclear Regulation Authority (NRA), has carried out since 2019 a research project that aims at assessing the airborne release fraction (ARF) of PuO2 involved in GB fires. This project, named FIGARO (Fires Involving Glove boxes with Aerosol Release Occurrences) follows a progressive approach, that has started with small and medium-scale analytical tests to study separately the various mechanisms involved in the GB fires and the PuO2 airborne release and will end with large-scale GB fire tests to transpose and validate the analytical works for realistic assessments of the ARF of PuO2 both in open and confined conditions. This project also includes the development of a GB fire model in the IRSN SYLVIA and CALIF3S-ISIS softwares and its validation. In addition to presenting the FIGARO program, this paper provides its first outcomes.

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