Nuclear Forensic of Uranium Ore Materials out of Regulatory Control: The Galaxy Serpent exercise v3
- ENEA, Fusion and Technology for Nuclear Safety and Security Department, Bologna, Italy (chiara.telloli@enea.it)
The nuclear forensics is one of the pillars in the architecture of nuclear security, as a response to criminal acts and illicit trafficking involving nuclear materials or other radioactive materials. ENEA is participating in international table-top exercises organized by the Nuclear Forensics International Technical Working Group (ITWG), a community whose aim is to advance the scientific discipline of nuclear forensics supporting the development of national capabilities. The “Galaxy Serpent” is a set of virtual international web-based exercises, focused on the development of National Nuclear Forensic Libraries (NNFLs). The aim is to increase national awareness of the technical challenges associated with the development of a National Nuclear Forensic Library (NNFL) and how it can be a valuable support for investigating crimes and/or illicit activities involving nuclear or radioactive materials.
The ENEA CBRN team participated in the Galaxy Serpent exercise, version 3, focused on the investigation on imported uranium ore concentrate materials. The used approach, the tools and the main outcomes will be presented. The scenario was dealing with the interception of a transport vehicle attempting to leave the country carrying radioactive materials out of regulatory control (MORC). In fact, further inspection revealed geological sources within some labelled containers and the isotopic analysis performed on these materials determined the sources to be uranium ore concentrate (UOC). The ENEA CBRN team was tasked to check whether this material was consistent with the material used within its country. The assessments have been carried out using Rare Earth Element (REE) patterns as main fingerprint of the geochemical affinity classes. REEs can be used to verify the origin of the samples and some process they have experienced as they are water insoluble and present in very low concentration in water, so they really reflect the original chemistry of the source. In addition, variations in their concentration could be indicative of technological processes aimed at the recovery of some elements that have different high technology applications. The use of statistical tools for the extrapolation of forensic information are presented and discussed.
The exercise had the dual purpose of testing, on the one hand the team’s skill level and the type of tools necessary for a response in the mitigation of chemical, biological, radiological, nuclear and risks (CBRN), and on the other hand, to prepare tools and procedures that may also involve other actors at national level, in particular in response to radiological risk.
How to cite: Telloli, C., Ottaviano, G., Rocchi, F., Padoani, F., and Rizzo, A.: Nuclear Forensic of Uranium Ore Materials out of Regulatory Control: The Galaxy Serpent exercise v3, EGU General Assembly 2024, Vienna, Austria, 14–19 Apr 2024, EGU24-1715, https://doi.org/10.5194/egusphere-egu24-1715, 2024.