原文传递 INL Active Interrogation Testing In Support of the GNEP Safeguards Campaign
题名: INL Active Interrogation Testing In Support of the GNEP Safeguards Campaign
作者: David L. Chichester;
关键词: Active Interrogation; Electronic neutron generator; Safeguards46 INSTRUMENTATION RELATED TO NUCLEAR SCIENCE AND TECHNOLOGY; 98 NUCLEAR DISARMAMENT, SAFEGUARDS, AND PHYSICAL PROTECTION; ENRICHED URANIUM; HELIUM 3; KNOWLEDGE BASE; MONITORING; NEUTRON GENERATORS; NEUTRON SOURCES; NEUTRONS; NUCLEAR ENERGY; NUCLEAR FUELS; PHOTONS; PHYSICS; PROBES; RADIATION SOURCES; REPROCESSING; SAFEGUARDS; SECURITY; SENSITIVITY; TESTING; URANIUM OXIDES; US DOT
摘要: Active interrogation, a measurement technique which uses a radiation source to probe materials and generate unique signatures useful for characterizing those materials, is a powerful tool for assaying special nuclear material. Work at Idaho National Laboratory (INL) in the area of active interrogation, using neutron and photon sources, has been under way for many years to develop methods for detecting and quantifying nuclear material for national and homeland security research areas. This research knowledge base is now being extended to address nuclear safeguards and process monitoring issues related to the Global Nuclear Energy Partnership (GNEP). As a first step in this area preliminary scoping studies have been performed to investigate the usefulness of using active neutron interrogation, with a low-power electronic neutron generator, to assay Department of Transportation 6M shipping drums containing uranium oxide fuel rodlets from INL鈥檚 zero power physics reactor. Using the paired-counting technique during the die-away time period of interrogation, a lower detection limit of approximately 4.2 grams of enriched uranium (40%235U) was calculated for a 40 minute measurement using a field portable 2.5 MeV neutron source and an array of 16 moderated helium-3 neutron tubes. Future work in this area, including the use of a more powerful neutron source and a better tailored detector array, would likely improve this limit to a much lower level. Further development work at INL will explore the applicability of active interrogation in association with the nuclear safeguards and process monitoring needs of the advanced GNEP facilities under consideration. This work, which will include both analyses and field demonstrations, will be performed in collaboration with colleagues at INL and elsewhere that have expertise in nuclear fuel reprocessing as well as active interrogation and its use for nuclear material analyses.
报告类型: 科技报告
检索历史
应用推荐