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Design and characterization of a Muon tomography system for spent nuclear fuel monitoring

Chanwoo Park, Min Kyu Baek, In-soo Kang, Seongyeon Lee, H. Chung, Yong Hyun Chung

2021Nuclear Engineering and Technology15 citationsDOIOpen Access PDF

Abstract

In recent years, monitoring of spent nuclear fuel inside dry cask storage has become an important area of national security. Muon tomography is a useful method for monitoring spent nuclear fuel because it uses high energy muons that penetrate deep into the target material and provides a 3-D structure of the inner materials. We designed a muon tomography system consisting of four 2-D position sensitive detector and characterized and optimized the system parameters. Each detector, measuring 200 × 200 cm2, consists of a plastic scintillator, wavelength shifting (WLS) fibers and, SiPMs. The reconstructed image is obtained by extracting the intersection of the incoming and outgoing muon tracks using a Point-of-Closest-Approach (PoCA) algorithm. The Geant4 simulation was used to evaluate the performance of the muon tomography system and to optimize the design parameters including the pixel size of the muon detector, the field of view (FOV), and the distance between detectors. Based on the optimized design parameters, the spent fuel assemblies were modeled and the line profile was analyzed to conduct a feasibility study. Line profile analysis confirmed that muon tomography system can monitor nuclear spent fuel in dry storage container.

Topics & Concepts

DetectorScintillatorNuclear materialMuonTomographySpent nuclear fuelNuclear fuelNuclear engineeringPhysicsNuclear physicsOpticsEngineeringParticle Detector Development and PerformanceParticle physics theoretical and experimental studiesRadiation Detection and Scintillator Technologies