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Ranking uncertainties in atmospheric dispersion modelling following the accidental release of radioactive material

Susan Leadbetter, S. Andronopoulos, Peter Bedwell, Karine Chevalier-Jabet, Gertie Geertsema, F. Gering, T. Hamburger, A. R. Jones, Heiko Klein, Irène Korsakissok, Anne Mathieu, Tamás Pázmándi, Raphaël Périllat, Cs. Rudas, Andrey Sogachev, Péter Szántó, Jasper Tomas, C. Twenhöfel, H. de Vries, Joseph Wellings

2020Radioprotection61 citationsDOIOpen Access PDF

Abstract

During the pre-release and early phase of an accidental release of radionuclides into the atmosphere there are few or no measurements, and dispersion models are used to assess the consequences and assist in determining appropriate countermeasures. However, uncertainties are high during this early phase and it is important to characterise these uncertainties and, if possible, include them in any dispersion modelling. In this paper we examine three sources of uncertainty in dispersion modelling; uncertainty in the source term, uncertainty in the meteorological information used to drive the dispersion model and intrinsic uncertainty within the dispersion model. We also explore the possibility of ranking these uncertainties dependent on their impact on the dispersion model outputs.

Topics & Concepts

Dispersion (optics)Atmospheric dispersion modelingEnvironmental scienceRanking (information retrieval)Atmosphere (unit)RadionuclidePhase (matter)Term (time)Computer scienceMeteorologyNuclear engineeringAtmospheric sciencesPhysicsNuclear physicsChemistryOpticsAir pollutionEngineeringInformation retrievalQuantum mechanicsOrganic chemistryRadioactive contamination and transferNuclear and radioactivity studiesRadioactivity and Radon Measurements
Ranking uncertainties in atmospheric dispersion modelling following the accidental release of radioactive material | Litcius