Journal Article IMPULSE-2025-00083

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Characterization of a mock up nuclear waste package using energy resolved MeV neutron analysis

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2025
Springer Nature [London]

Scientific reports 15(1), 6823 () [10.1038/s41598-025-89879-0]

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Abstract: Reliable radiographic methods for characterizing nuclear waste packages non-destructively (without the need to open containers) have the potential to significantly contribute to safe handling and future disposal options, particularly for legacy waste of unknown content. Due to required shielding of waste containers and the need to characterize materials consisting of light elements, X-ray methods are not suitable. Here, energy-resolved MeV neutron radiography is demonstrated as a first-of-its-kind application for non-destructive and remote examination of mock up nuclear waste packages from a safe position using time-of-flight techniques enabled by a novel event-mode imaging detector system. Energy-resolved neutron transmission spectra were measured spatially, permitting the detection of analogue materials to actual nuclear waste such as water, melamine, and ion exchange resin within a 2.54 cm wall thickness steel pipe. The results demonstrate the capability to locate the materials through this wall thickness by radiography and tomographic reconstruction, revealing detailed 3D distributions and structural anomalies. The method effectively detects residual water in ion exchange resin, highlighting its sensitivity to moisture content, a crucial parameter for nuclear waste characterization. Monte Carlo simulations are in agreement with the experimental findings, providing a pathway to simulate waste forms more difficult to tackle experimentally. This work paves the way to apply sub-nanosecond intense MeV neutron sources, such as laser-driven neutron sources under development, to nuclear waste characterization.

Keyword(s): Engineering, Industrial Materials and Processing (1st) ; Industrial Application (2nd) ; Instrument and Method Development (2nd)

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Note: GRANTS:- BMBF ZARA-LAN project 050306/50001339- BMBF 05K22WO5- LANL Laboratory Directed Research and Development (LDRD) program No. 20230592ER

Contributing Institute(s):
  1. NECTAR (NECTAR)
Experiment(s):
  1. Measurement at external facility

Appears in the scientific report 2025
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 Record created 2025-05-14, last modified 2025-05-19


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