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The path for innovative severe accident neutronics studies in ZPRs. part I.2-Interpretation of SNEAK-12A experiment for core disruption in LMFBRs impact of nuclear data uncertainties on reactivity coefficients

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The path for innovative severe accident neutronics studies in ZPRs. part I.2-Interpretation of SNEAK-12A experiment for core disruption in LMFBRs impact of nuclear data uncertainties on reactivity coefficients. / Margulis, M.; Blaise, P.; Mellier, F. et al.
In: Progress in Nuclear Energy, Vol. 96, 01.04.2017, p. 97-117.

Research output: Contribution to journalArticlepeer-review

HarvardHarvard

Margulis, M, Blaise, P, Mellier, F & Gilad, E 2017, 'The path for innovative severe accident neutronics studies in ZPRs. part I.2-Interpretation of SNEAK-12A experiment for core disruption in LMFBRs impact of nuclear data uncertainties on reactivity coefficients', Progress in Nuclear Energy, vol. 96, pp. 97-117. https://doi.org/10.1016/j.pnucene.2016.12.006

APA

Margulis, M., Blaise, P., Mellier, F., & Gilad, E. (2017). The path for innovative severe accident neutronics studies in ZPRs. part I.2-Interpretation of SNEAK-12A experiment for core disruption in LMFBRs impact of nuclear data uncertainties on reactivity coefficients. Progress in Nuclear Energy, 96, 97-117. https://doi.org/10.1016/j.pnucene.2016.12.006

CBE

Margulis M, Blaise P, Mellier F, Gilad E. 2017. The path for innovative severe accident neutronics studies in ZPRs. part I.2-Interpretation of SNEAK-12A experiment for core disruption in LMFBRs impact of nuclear data uncertainties on reactivity coefficients. Progress in Nuclear Energy. 96:97-117. https://doi.org/10.1016/j.pnucene.2016.12.006

MLA

Margulis, M. et al. "The path for innovative severe accident neutronics studies in ZPRs. part I.2-Interpretation of SNEAK-12A experiment for core disruption in LMFBRs impact of nuclear data uncertainties on reactivity coefficients". Progress in Nuclear Energy. 2017, 96. 97-117. https://doi.org/10.1016/j.pnucene.2016.12.006

VancouverVancouver

Margulis M, Blaise P, Mellier F, Gilad E. The path for innovative severe accident neutronics studies in ZPRs. part I.2-Interpretation of SNEAK-12A experiment for core disruption in LMFBRs impact of nuclear data uncertainties on reactivity coefficients. Progress in Nuclear Energy. 2017 Apr 1;96:97-117. Epub 2016 Dec 29. doi: 10.1016/j.pnucene.2016.12.006

Author

Margulis, M. ; Blaise, P. ; Mellier, F. et al. / The path for innovative severe accident neutronics studies in ZPRs. part I.2-Interpretation of SNEAK-12A experiment for core disruption in LMFBRs impact of nuclear data uncertainties on reactivity coefficients. In: Progress in Nuclear Energy. 2017 ; Vol. 96. pp. 97-117.

RIS

TY - JOUR

T1 - The path for innovative severe accident neutronics studies in ZPRs. part I.2-Interpretation of SNEAK-12A experiment for core disruption in LMFBRs impact of nuclear data uncertainties on reactivity coefficients

AU - Margulis, M.

AU - Blaise, P.

AU - Mellier, F.

AU - Gilad, E.

PY - 2017/4/1

Y1 - 2017/4/1

N2 - The present work details a further investigation of the SNEAK-12A experimental program, which aimed to study material relocation in Sodium Fast Reactors (SFRs) leading to core degradation. The further investigation include sensitivity and uncertainty propagation analysis. In this paper, a comparison is made using two codes, a Monte Carlo based code Serpent 2 and the deterministic system code ERANOS. A sensitivity analysis was made utilizing the two codes, with comparison of two nuclear data libraries (ENDF/B-VII.1 and JEFF-3.1.1). The code-to-code comparison resulted in a very good agreement, while the comparison of libraries showed large discrepancies, manly due to the differences in the sodium cross-section data. The sensitivity analysis, was followed by a complete propagated uncertainty analysis based on the covariance evaluated data available in the COMAC data evaluation. The results of the uncertainties show that there are still large discrepancies linked to the nuclear data. This work is done within the frame work of new core design capacities and new ways of conducting in Zero Power Reactors, such as the ZEPHYR project led independently by CEA.

AB - The present work details a further investigation of the SNEAK-12A experimental program, which aimed to study material relocation in Sodium Fast Reactors (SFRs) leading to core degradation. The further investigation include sensitivity and uncertainty propagation analysis. In this paper, a comparison is made using two codes, a Monte Carlo based code Serpent 2 and the deterministic system code ERANOS. A sensitivity analysis was made utilizing the two codes, with comparison of two nuclear data libraries (ENDF/B-VII.1 and JEFF-3.1.1). The code-to-code comparison resulted in a very good agreement, while the comparison of libraries showed large discrepancies, manly due to the differences in the sodium cross-section data. The sensitivity analysis, was followed by a complete propagated uncertainty analysis based on the covariance evaluated data available in the COMAC data evaluation. The results of the uncertainties show that there are still large discrepancies linked to the nuclear data. This work is done within the frame work of new core design capacities and new ways of conducting in Zero Power Reactors, such as the ZEPHYR project led independently by CEA.

KW - SNEAK-12A

KW - Core disruption

KW - Severe accidents

KW - Reactivity coefficient

KW - Nuclear data

KW - Sensitivity

KW - Uncertainty

U2 - 10.1016/j.pnucene.2016.12.006

DO - 10.1016/j.pnucene.2016.12.006

M3 - Article

VL - 96

SP - 97

EP - 117

JO - Progress in Nuclear Energy

JF - Progress in Nuclear Energy

SN - 0149-1970

ER -