Assessment of the CTF subchannel code for modeling a large-break loss-of-coolant accident reflood transient-Reference-Cited by-同舟云学术

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Assessment of the CTF subchannel code for modeling a large-break loss-of-coolant accident reflood transient

Published:2025-01 Issue: Volume:210 Page:110831
ISSN:0306-4549
Container-title:Annals of Nuclear Energy
language:en
Short-container-title:Annals of Nuclear Energy

Author:

Salko Robert^ORCID,Wysocki Aaron,Hizoum Belgacem,Capps Nathan

Funder

US Department of Energy

Naval Nuclear Propulsion Program

Office of Nuclear Energy

Stichting DOEN

Publisher

Elsevier BV

Reference30 articles.

1. Bajorek, S.M., Bernard, M., Gingrich, C., Hoxie, C.L., Ireland, A., Kelly, J., Mahaffy, J., Spore, C., Staudenmeier, J., Thurgood, J.M., Tien, M.K., Whitman, J., 2015. Development, validation, and assessment of the trace thermal-hydraulics systems code. In: NURETH-16. Chicago, IL, August 30–September 4 2015, pp. 8265–8278.

2. Rod bundle heat transfer thermal-hydraulic program;Bajorek;Nucl. Technol.,2019

3. Bajorek, S.M., Lowery, B., Cheung, F.B., Ferraro, A.D., Cherubini, M., Petruzzi, A., Zhang, J., Adorni, M., 2023. Towards a better understanding of reflood thermal-hydraulics: A summary of the oecd/nea rbht project. In: NURETH-20. August 20–25, 2023, Washington D.C.

4. TRACE V5.0 Assessment Manual: Main Report;Bajorek,2012

5. TRACE V5.0 Patch 7 Theory Manual: Field Equations, Solution Methods, and Physical Models;Bajorek,2022

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