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Christian Mun, L. Cantrel, Charles Madic
Study of RuO4 decomposition in dry and moist air
Keywords: Ruthenium tetroxide, Ruthenium dioxide, Decomposition, Nuclear reactor containment, Severe accident
During a hypothetical severe nuclear accident on a pressurized water reactor (PWR), it is of primary importance to assess potential radionuclide release into the environment, and thus to better understand the volatile ruthenium tetroxide stability, in the containment building, due to its high radiotoxicity. The stability of RuO[4](g) in dry and moist air, under conditions representative of a PWR containment building, is investigated. RuO[4] decomposition occurs in bulk gas phase, without any specific affinity with surfaces. The kinetic rate law of RuO[4] reduction is found to be dependent on the presence of steam. The humidity seems to play a catalytic role, as well as the presence of ruthenium dioxide deposits. The temperature is also a key parameter. In the presence of steam, the half-life times of RuO[4] are found to be respectively of 5 h and 9 h at 90 °C and 40 °C. A chemical reaction scheme consistent with the experimental observations is proposed.
Radiochimica Acta, Oldenbourg Wissenschaftsverlag
Print ISSN: 0033-8230
Volume: 95, 11/2007
Pages: 643 - 656