Validation of UNF-ST&DARDS As-Loaded Criticality Calculations

J. B. Clarity; K. Banerjee; L. P. Miller; A. M. Shaw; W. J. Marshall

doi:10.13182/T126-37499

Validation of UNF-ST&DARDS As-Loaded Criticality Calculations

J. B. Clarity, K. Banerjee, L. P. Miller, A. M. Shaw, W. J. Marshall

Criticality Safety Analysis and Research

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

1 Scopus citations

Abstract

The Used Nuclear Fuel - Storage, Transportation & Disposal Analysis Resource and Data System (UNF-ST&DARDS) has been used for the quantification of the criticality safety margin in as-loaded spent nuclear fuel systems. To have confidence that the criticality margins are conservatively estimated, the calculations must be validated against the appropriate data. This paper discusses efforts to validate the criticality analysis methods used within UNF-ST&DARDS, with a focus on the validation of the operating history assumptions, the depletion calculations, and the criticality calculations. Operating history is validated by comparing the results of calculations using the detailed operating histories from a single cask containing 32 assemblies from a single pressurized water reactor to calculations using the conservative operating parameters used in the UNF-ST&DARDS analysis sequence. Validation of the depletion methodology used in UNF-ST&DARDS is being implemented using a Monte Carlo sampling isotopic uncertainty technique that propagates the measured-to-calculated ratio distributions derived from radiochemical assay data into biases and bias uncertainties that are directly applicable to the specific canister. Criticality code validation within UNF-ST&DARDS uses a sensitivity/uncertainty-based validation technique to select critical experiments that are applicable to each canister and industry standard statistical techniques to calculate the bias and bias uncertainty for the computational methods from the selected critical experiments. The methods used and sample results from each of these validation areas are discussed.

Original language	English
Title of host publication	Proceedings of the Nuclear Criticality Safety Division Topical Meeting, NCSD 2022 - Embedded with the 2022 ANS Annual Meeting
Publisher	American Nuclear Society
Pages	168-178
Number of pages	11
ISBN (Electronic)	9780894487859
DOIs	https://doi.org/10.13182/T126-37499
State	Published - 2022
Event	2022 Nuclear Criticality Safety Division Topical Meeting, NCSD 2022 - Anaheim, United States Duration: Jun 12 2022 → Jun 16 2022

Publication series

Name	Proceedings of the Nuclear Criticality Safety Division Topical Meeting, NCSD 2022 - Embedded with the 2022 ANS Annual Meeting

Conference

Conference	2022 Nuclear Criticality Safety Division Topical Meeting, NCSD 2022
Country/Territory	United States
City	Anaheim
Period	06/12/22 → 06/16/22

Funding

The authors of this work gratefully acknowledge the sponsorship of the U.S. Department of Energy Office of Nuclear Energy, Integrated Waste Management Program.

Keywords

Burnup Credit
Criticality
SNF
UNF-ST&DARDS
Validation

Access to Document

10.13182/T126-37499

Cite this

Clarity, J. B., Banerjee, K., Miller, L. P., Shaw, A. M., & Marshall, W. J. (2022). Validation of UNF-ST&DARDS As-Loaded Criticality Calculations. In Proceedings of the Nuclear Criticality Safety Division Topical Meeting, NCSD 2022 - Embedded with the 2022 ANS Annual Meeting (pp. 168-178). (Proceedings of the Nuclear Criticality Safety Division Topical Meeting, NCSD 2022 - Embedded with the 2022 ANS Annual Meeting). American Nuclear Society. https://doi.org/10.13182/T126-37499

Clarity, J. B. ; Banerjee, K. ; Miller, L. P. et al. / Validation of UNF-ST&DARDS As-Loaded Criticality Calculations. Proceedings of the Nuclear Criticality Safety Division Topical Meeting, NCSD 2022 - Embedded with the 2022 ANS Annual Meeting. American Nuclear Society, 2022. pp. 168-178 (Proceedings of the Nuclear Criticality Safety Division Topical Meeting, NCSD 2022 - Embedded with the 2022 ANS Annual Meeting).

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abstract = "The Used Nuclear Fuel - Storage, Transportation \& Disposal Analysis Resource and Data System (UNF-ST\&DARDS) has been used for the quantification of the criticality safety margin in as-loaded spent nuclear fuel systems. To have confidence that the criticality margins are conservatively estimated, the calculations must be validated against the appropriate data. This paper discusses efforts to validate the criticality analysis methods used within UNF-ST\&DARDS, with a focus on the validation of the operating history assumptions, the depletion calculations, and the criticality calculations. Operating history is validated by comparing the results of calculations using the detailed operating histories from a single cask containing 32 assemblies from a single pressurized water reactor to calculations using the conservative operating parameters used in the UNF-ST\&DARDS analysis sequence. Validation of the depletion methodology used in UNF-ST\&DARDS is being implemented using a Monte Carlo sampling isotopic uncertainty technique that propagates the measured-to-calculated ratio distributions derived from radiochemical assay data into biases and bias uncertainties that are directly applicable to the specific canister. Criticality code validation within UNF-ST\&DARDS uses a sensitivity/uncertainty-based validation technique to select critical experiments that are applicable to each canister and industry standard statistical techniques to calculate the bias and bias uncertainty for the computational methods from the selected critical experiments. The methods used and sample results from each of these validation areas are discussed.",

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note = "Publisher Copyright: {\textcopyright} 2022 Proceedings of the Nuclear Criticality Safety Division Topical Meeting, NCSD 2022 - Embedded with the 2022 ANS Annual Meeting. All rights reserved.; 2022 Nuclear Criticality Safety Division Topical Meeting, NCSD 2022 ; Conference date: 12-06-2022 Through 16-06-2022",

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language = "English",

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Clarity, JB, Banerjee, K, Miller, LP, Shaw, AM & Marshall, WJ 2022, Validation of UNF-ST&DARDS As-Loaded Criticality Calculations. in Proceedings of the Nuclear Criticality Safety Division Topical Meeting, NCSD 2022 - Embedded with the 2022 ANS Annual Meeting. Proceedings of the Nuclear Criticality Safety Division Topical Meeting, NCSD 2022 - Embedded with the 2022 ANS Annual Meeting, American Nuclear Society, pp. 168-178, 2022 Nuclear Criticality Safety Division Topical Meeting, NCSD 2022, Anaheim, United States, 06/12/22. https://doi.org/10.13182/T126-37499

Validation of UNF-ST&DARDS As-Loaded Criticality Calculations. / Clarity, J. B.; Banerjee, K.; Miller, L. P. et al.
Proceedings of the Nuclear Criticality Safety Division Topical Meeting, NCSD 2022 - Embedded with the 2022 ANS Annual Meeting. American Nuclear Society, 2022. p. 168-178 (Proceedings of the Nuclear Criticality Safety Division Topical Meeting, NCSD 2022 - Embedded with the 2022 ANS Annual Meeting).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

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AU - Clarity, J. B.

AU - Banerjee, K.

AU - Miller, L. P.

AU - Shaw, A. M.

AU - Marshall, W. J.

PY - 2022

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N2 - The Used Nuclear Fuel - Storage, Transportation & Disposal Analysis Resource and Data System (UNF-ST&DARDS) has been used for the quantification of the criticality safety margin in as-loaded spent nuclear fuel systems. To have confidence that the criticality margins are conservatively estimated, the calculations must be validated against the appropriate data. This paper discusses efforts to validate the criticality analysis methods used within UNF-ST&DARDS, with a focus on the validation of the operating history assumptions, the depletion calculations, and the criticality calculations. Operating history is validated by comparing the results of calculations using the detailed operating histories from a single cask containing 32 assemblies from a single pressurized water reactor to calculations using the conservative operating parameters used in the UNF-ST&DARDS analysis sequence. Validation of the depletion methodology used in UNF-ST&DARDS is being implemented using a Monte Carlo sampling isotopic uncertainty technique that propagates the measured-to-calculated ratio distributions derived from radiochemical assay data into biases and bias uncertainties that are directly applicable to the specific canister. Criticality code validation within UNF-ST&DARDS uses a sensitivity/uncertainty-based validation technique to select critical experiments that are applicable to each canister and industry standard statistical techniques to calculate the bias and bias uncertainty for the computational methods from the selected critical experiments. The methods used and sample results from each of these validation areas are discussed.

AB - The Used Nuclear Fuel - Storage, Transportation & Disposal Analysis Resource and Data System (UNF-ST&DARDS) has been used for the quantification of the criticality safety margin in as-loaded spent nuclear fuel systems. To have confidence that the criticality margins are conservatively estimated, the calculations must be validated against the appropriate data. This paper discusses efforts to validate the criticality analysis methods used within UNF-ST&DARDS, with a focus on the validation of the operating history assumptions, the depletion calculations, and the criticality calculations. Operating history is validated by comparing the results of calculations using the detailed operating histories from a single cask containing 32 assemblies from a single pressurized water reactor to calculations using the conservative operating parameters used in the UNF-ST&DARDS analysis sequence. Validation of the depletion methodology used in UNF-ST&DARDS is being implemented using a Monte Carlo sampling isotopic uncertainty technique that propagates the measured-to-calculated ratio distributions derived from radiochemical assay data into biases and bias uncertainties that are directly applicable to the specific canister. Criticality code validation within UNF-ST&DARDS uses a sensitivity/uncertainty-based validation technique to select critical experiments that are applicable to each canister and industry standard statistical techniques to calculate the bias and bias uncertainty for the computational methods from the selected critical experiments. The methods used and sample results from each of these validation areas are discussed.

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KW - Criticality

KW - SNF

KW - UNF-ST&DARDS

KW - Validation

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M3 - Conference contribution

AN - SCOPUS:85181574378

T3 - Proceedings of the Nuclear Criticality Safety Division Topical Meeting, NCSD 2022 - Embedded with the 2022 ANS Annual Meeting

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BT - Proceedings of the Nuclear Criticality Safety Division Topical Meeting, NCSD 2022 - Embedded with the 2022 ANS Annual Meeting

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Clarity JB, Banerjee K, Miller LP, Shaw AM , Marshall WJ. Validation of UNF-ST&DARDS As-Loaded Criticality Calculations. In Proceedings of the Nuclear Criticality Safety Division Topical Meeting, NCSD 2022 - Embedded with the 2022 ANS Annual Meeting. American Nuclear Society. 2022. p. 168-178. (Proceedings of the Nuclear Criticality Safety Division Topical Meeting, NCSD 2022 - Embedded with the 2022 ANS Annual Meeting). doi: 10.13182/T126-37499

Validation of UNF-ST&DARDS As-Loaded Criticality Calculations

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