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The path for innovative severe accident neutronics studies in ZPRs - Analysis of SNEAK-12B experiments for core disruption in LMFBRs. / Margulis, Marat; Blaise, Patrick; Gabrielli, Fabrizio et al.
In: Annals of Nuclear Energy, Vol. 124, 01.02.2019, p. 119-131.

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Margulis, M, Blaise, P, Gabrielli, F, Gruel, A, Mellier, F & Gilad, E 2019, 'The path for innovative severe accident neutronics studies in ZPRs - Analysis of SNEAK-12B experiments for core disruption in LMFBRs', Annals of Nuclear Energy, vol. 124, pp. 119-131. https://doi.org/10.1016/j.anucene.2018.09.025

APA

Margulis, M., Blaise, P., Gabrielli, F., Gruel, A., Mellier, F., & Gilad, E. (2019). The path for innovative severe accident neutronics studies in ZPRs - Analysis of SNEAK-12B experiments for core disruption in LMFBRs. Annals of Nuclear Energy, 124, 119-131. https://doi.org/10.1016/j.anucene.2018.09.025

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MLA

VancouverVancouver

Margulis M, Blaise P, Gabrielli F, Gruel A, Mellier F, Gilad E. The path for innovative severe accident neutronics studies in ZPRs - Analysis of SNEAK-12B experiments for core disruption in LMFBRs. Annals of Nuclear Energy. 2019 Feb 1;124:119-131. Epub 2018 Oct 6. doi: 10.1016/j.anucene.2018.09.025

Author

Margulis, Marat ; Blaise, Patrick ; Gabrielli, Fabrizio et al. / The path for innovative severe accident neutronics studies in ZPRs - Analysis of SNEAK-12B experiments for core disruption in LMFBRs. In: Annals of Nuclear Energy. 2019 ; Vol. 124. pp. 119-131.

RIS

TY - JOUR

T1 - The path for innovative severe accident neutronics studies in ZPRs - Analysis of SNEAK-12B experiments for core disruption in LMFBRs

AU - Margulis, Marat

AU - Blaise, Patrick

AU - Gabrielli, Fabrizio

AU - Gruel, Adrien

AU - Mellier, Frederic

AU - Gilad, Erez

PY - 2019/2/1

Y1 - 2019/2/1

N2 - The present work details information (core geometry, material balance, and criticality measurements and calculations) regarding a new benchmark to be introduced to the international community, for dealing with neutronic code validation in the frame of the analysis of severe accidents in fast reactors leading to core degradation and material relocation. This specific benchmark is based on analysis of selected experiments performed at the Schnelle Null-Energie-Anordnung Karlsruhe (SNEAK). Unlike the previously analyzed SNEAK-12A core, which was loaded with enriched metallic uranium fuel, the core analyzed in this study, the SNEAK-12B core, was loaded with plutonium fuel to better represent future fast systems, and the experiments that were considered include fuel relocation and redistribution of structural material. In this paper, the experimental results are analyzed by computational tools such as MCNPX2.7 and Serpent-2.1.29 Monte Carlo codes, and the ERANOS 2.4 system code for deterministic calculations, all based on JEFF-3.1.1 nuclear data libraries. The paper provides a complete and detailed specification for the benchmark problem. Preliminary results of available experimental results ( and axial distribution of reaction rates) are given and additional quantities are presented (such as axial flux distribution). The benchmark offers an excellent opportunity to validate calculation schemes for strongly heterogeneous configurations, in particular the preparation of homogenized self-shielded neutron cross-sections for deterministic core calculations, as well as leakage treatment in locally voided zones. The analyses of SNEAK experiments, presented in this paper, provide grounds for the design of innovative experimental capabilities in severe accident modeling in Zero Power Reactors (ZPR), such as the Zero-power Experimental PHYsics Reactor (ZEPHYR) project led independently by the Commissariat à l’Énergie Atomique et aux Énergies Alternatives (CEA). This paper is completed by a comprehensive nuclear data sensitivity and uncertainty analysis of the reactivity coefficients and in a companion paper.

AB - The present work details information (core geometry, material balance, and criticality measurements and calculations) regarding a new benchmark to be introduced to the international community, for dealing with neutronic code validation in the frame of the analysis of severe accidents in fast reactors leading to core degradation and material relocation. This specific benchmark is based on analysis of selected experiments performed at the Schnelle Null-Energie-Anordnung Karlsruhe (SNEAK). Unlike the previously analyzed SNEAK-12A core, which was loaded with enriched metallic uranium fuel, the core analyzed in this study, the SNEAK-12B core, was loaded with plutonium fuel to better represent future fast systems, and the experiments that were considered include fuel relocation and redistribution of structural material. In this paper, the experimental results are analyzed by computational tools such as MCNPX2.7 and Serpent-2.1.29 Monte Carlo codes, and the ERANOS 2.4 system code for deterministic calculations, all based on JEFF-3.1.1 nuclear data libraries. The paper provides a complete and detailed specification for the benchmark problem. Preliminary results of available experimental results ( and axial distribution of reaction rates) are given and additional quantities are presented (such as axial flux distribution). The benchmark offers an excellent opportunity to validate calculation schemes for strongly heterogeneous configurations, in particular the preparation of homogenized self-shielded neutron cross-sections for deterministic core calculations, as well as leakage treatment in locally voided zones. The analyses of SNEAK experiments, presented in this paper, provide grounds for the design of innovative experimental capabilities in severe accident modeling in Zero Power Reactors (ZPR), such as the Zero-power Experimental PHYsics Reactor (ZEPHYR) project led independently by the Commissariat à l’Énergie Atomique et aux Énergies Alternatives (CEA). This paper is completed by a comprehensive nuclear data sensitivity and uncertainty analysis of the reactivity coefficients and in a companion paper.

KW - SNEAK-12B

KW - Core disruption

KW - Severe accidents

KW - LMFBR

KW - Code validation

KW - Benchmark

U2 - 10.1016/j.anucene.2018.09.025

DO - 10.1016/j.anucene.2018.09.025

M3 - Article

VL - 124

SP - 119

EP - 131

JO - Annals of Nuclear Energy

JF - Annals of Nuclear Energy

SN - 0306-4549

ER -