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Airborne concentrations and chemical considerations of radioactive ruthenium from an undeclared major nuclear release in 2017.

O MassonGeorg SteinhauserD ZokO SaunierH AngelovD BabićV BečkováJ BieringerM BruggemanC I BurbidgeS ConilA DalheimerL-E De GeerA de Vismes OttK EleftheriadisS EstierH FischerM G GaravagliaC Gasco LeonarteK GorzkiewiczD HainzI HoffmanM HýžaK IsajenkoT KarhunenJ KastlanderC KatzlbergerR KierepkoG-J KnetschJ Kövendiné KónyiM LecomteJ W MietelskiP MinB MøllerS P NielsenJ NikolicL NikolovskaI PenevB PetrinecP P PovinecR QuerfeldO RaimondiDaniela RansbyW RingerO RomanenkoR RusconiP R J SaeyV SamsonovB ŠilobritienėE SimionC SöderströmM ŠoštarićT SteinkopffP SteinmannI SýkoraL TabachnyiD TodorovicE TomankiewiczJ TschierschR TsibranskiM TzortzisK UngarA VidicA WellerH WershofenP ZagyvaiT ZalewskaD Zapata GarcíaB Zorko
Published in: Proceedings of the National Academy of Sciences of the United States of America (2019)
In October 2017, most European countries reported unique atmospheric detections of aerosol-bound radioruthenium (106Ru). The range of concentrations varied from some tenths of µBq·m-3 to more than 150 mBq·m-3 The widespread detection at such considerable (yet innocuous) levels suggested a considerable release. To compare activity reports of airborne 106Ru with different sampling periods, concentrations were reconstructed based on the most probable plume presence duration at each location. Based on airborne concentration spreading and chemical considerations, it is possible to assume that the release occurred in the Southern Urals region (Russian Federation). The 106Ru age was estimated to be about 2 years. It exhibited highly soluble and less soluble fractions in aqueous media, high radiopurity (lack of concomitant radionuclides), and volatility between 700 and 1,000 °C, thus suggesting a release at an advanced stage in the reprocessing of nuclear fuel. The amount and isotopic characteristics of the radioruthenium release may indicate a context with the production of a large 144Ce source for a neutrino experiment.
Keyphrases
  • particulate matter
  • energy transfer
  • emergency department
  • air pollution
  • adverse drug
  • loop mediated isothermal amplification
  • real time pcr
  • water soluble