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Development of prototype induced-fission-based Pu accountancy instrument for safeguards applications

Prototype safeguards instrument for nuclear material accountancy (NMA) of uranium/transuranic (U/TRU) products that could be produced in a future advanced PWR fuel processing facility has been developed and characterized. This is a new, hybrid neutron measurement system based on fast neutron energy...

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Bibliographic Details
Published in:Applied radiation and isotopes 2016-09, Vol.115, p.67-73
Main Authors: Seo, Hee, Lee, Seung Kyu, An, Su Jung, Park, Se-Hwan, Ku, Jeong-Hoe, Menlove, Howard O., Rael, Carlos D., LaFleur, Adrienne M., Browne, Michael C.
Format: Article
Language:English
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Summary:Prototype safeguards instrument for nuclear material accountancy (NMA) of uranium/transuranic (U/TRU) products that could be produced in a future advanced PWR fuel processing facility has been developed and characterized. This is a new, hybrid neutron measurement system based on fast neutron energy multiplication (FNEM) and passive neutron albedo reactivity (PNAR) methods. The FNEM method is sensitive to the induced fission rate by fast neutrons, while the PNAR method is sensitive to the induced fission rate by thermal neutrons in the sample to be measured. The induced fission rate is proportional to the total amount of fissile material, especially plutonium (Pu), in the U/TRU product; hence, the Pu amount can be calibrated as a function of the induced fission rate, which can be measured using either the FNEM or PNAR method. In the present study, the prototype system was built using six 3He tubes, and its performance was evaluated for various detector parameters including high-voltage (HV) plateau, efficiency profiles, dead time, and stability. The system's capability to measure the difference in the average neutron energy for the FNEM signature also was evaluated, using AmLi, PuBe, 252Cf, as well as four Pu-oxide sources each with a different impurity (Al, F, Mg, and B) and producing (α,n) neutrons with different average energies. Future work will measure the hybrid signature (i.e., FNEM×PNAR) for a Pu source with an external interrogating neutron source after enlarging the cavity size of the prototype system to accommodate a large-size Pu source (~600g Pu). •Prototype safeguards instrument for nuclear material accountancy has been developed and characterized.•The prototype system is based on a hybrid measurement technique (FNEM and PNAR).•Various detector parameters (i.e., efficiency profile, dead time, and stability) were evaluated.•The system's capability to measure the difference in the average neutron energy for the FNEM signature was evaluated.
ISSN:0969-8043
1872-9800
DOI:10.1016/j.apradiso.2016.06.011