Neutron Spectrometry for 6 Enrichment Verification in Storage Cylinders

Neutron Spectrometry for 6 Enrichment Verification in Storage Cylinders

Verification of declared UF 6 enrichment and mass in storage cylinders is of great interest in nuclear material nonproliferation. Nondestructive assay (NDA) techniques are commonly used for safeguards inspections to ensure accountancy of declared nuclear materials. Common NDA techniques used include...

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Bibliographic Details
Published in:IEEE transactions on nuclear science Vol. 62; no. 1; pp. 272 - 280
Main Authors: Mengesha, Wondwosen, Kiff, Scott D.
Format: Journal Article
Language:English
Published: IEEE 01-02-2015
Subjects:
30-B cylinders
Detectors
Gamma-rays
Geant4 simulation
Geometry
Liquids
MCNP5 simulation
neutron spectrometry
Neutrons
nondestructive assay
Principal component analysis
Spectroscopy
uranium enrichment
{\rm UF}_6
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Summary:Verification of declared UF 6 enrichment and mass in storage cylinders is of great interest in nuclear material nonproliferation. Nondestructive assay (NDA) techniques are commonly used for safeguards inspections to ensure accountancy of declared nuclear materials. Common NDA techniques used include gamma-ray spectrometry and both passive and active neutron measurements. In the present study, neutron spectrometry was investigated for verification of UF 6 enrichment in 30B storage cylinders based on an unattended and passive measurement approach. MCNP5 and Geant4 simulated neutron spectra, for selected UF 6 enrichments and filling profiles, were used in the investigation. The simulated neutron spectra were analyzed using principal component analysis (PCA). The PCA technique is a well-established technique and has a wide area of application including feature analysis, outlier detection, and gamma-ray spectral analysis. Results obtained demonstrate that neutron spectrometry supported by spectral feature analysis has potential for assaying UF 6 enrichment in storage cylinders. Results from the present study also showed that difficulties associated with the UF 6 filling profile and observed in other unattended passive neutron measurements can possibly be overcome using the approach presented.
ISSN:0018-9499
1558-1578
DOI:10.1109/TNS.2015.2389214