John M Scaglione scite author profile

Cosmic ray muon-computed tomography (μCT) is a new imaging modality with unique characteristics that could be particularly important for diverse applications including nuclear nonproliferation, spent nuclear fuel monitoring, cargo scanning, and volcano imaging. The strong scattering dependence of muons on atomic number Z in combination with high penetration range could offer a significant advantage over existing techniques when dense, shielded containers must be imaged. However, μCT reconstruction using conventional filtered back-projection is limited due to the overly simple assumptions that do not take into account the curved path caused by multiple Coulomb scattering prompting the need for more sophisticated approaches to be developed. In this paper, we argue that the use of improved muon tracing and scattering angle projection algorithms as well as an algebraic reconstruction technique should produce muon tomographic images with improved quality - or require fewer muons to produce the same image quality - compared to the case where conventional methods are used. We report on the development and assessment of three novel muon tracing methods and two scattering angle projection methods for μCT. Simulated dry storage casks with single and partial missing fuel assemblies were used as numerical examples to assess and compare the proposed methods. The reconstructed images showed an expected improvement in image quality when compared with conventional techniques, even without muon momentum information, which should lead to improved detection capability, even for partial defects.

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Post Irradiation Examination Plan for High-Burnup Demonstration Project Sister Rods

Scaglione

Montgomery

Bevard

2016

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This test plan describes the experimental work to be implemented by the U.S. Department of Energy (DOE) Office of Nuclear Energy (NE) to characterize high burnup (HBU) spent nuclear fuel (SNF) in conjunction with the High Burnup Dry Storage Cask Research and Development Project [1] and serves to coordinate and integrate the multi-year experimental program to collect and develop data regarding the continued storage and eventual transport of HBU (i.e., >45 GWd/MTU) SNF. The work scope involves the development, performance, technical integration, and oversight of measurements and collection of relevant data, guided by analyses and demonstration of need.

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An Approach for Validating Actinide and Fission Product Burnup Credit Criticality Safety Analyses: Criticality (k_eff) Predictions

2014

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FY 2016 Status Report: Documentation of All CIRFT Data including Hydride Reorientation Tests (Draft M2)

Wang

Jiang

et al. 2016

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John M Scaglione

Investigations of Dual-Purpose Canister Direct Disposal Feasibility (FY14)

Muon Tracing and Image Reconstruction Algorithms for Cosmic Ray Muon Computed Tomography

Post Irradiation Examination Plan for High-Burnup Demonstration Project Sister Rods

An Approach for Validating Actinide and Fission Product Burnup Credit Criticality Safety Analyses: Criticality (k_eff) Predictions

FY 2016 Status Report: Documentation of All CIRFT Data including Hydride Reorientation Tests (Draft M2)

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About

John M Scaglione

Investigations of Dual-Purpose Canister Direct Disposal Feasibility (FY14)

Muon Tracing and Image Reconstruction Algorithms for Cosmic Ray Muon Computed Tomography

Post Irradiation Examination Plan for High-Burnup Demonstration Project Sister Rods

An Approach for Validating Actinide and Fission Product Burnup Credit Criticality Safety Analyses: Criticality (keff) Predictions

FY 2016 Status Report: Documentation of All CIRFT Data including Hydride Reorientation Tests (Draft M2)

Contact Info

Product

Resources

About

An Approach for Validating Actinide and Fission Product Burnup Credit Criticality Safety Analyses: Criticality (k_eff) Predictions