Neutronic analysis of the European sodium fast reactor: Part II-burnup results

Emil Fridman; Francisco Álvarez Velarde; Pablo Romojaro Otero; Haile Tsige-Tamirat; Antonio Jiménez Carrascosa; Nuria García Herranz; Franck Bernard; Robert Gregg; Una Davies; Jiri Krepel; Ben Lindley; Simone Massara; Sandra Poumerouly; Enrico Girardi; Konstantin Mikityuk

doi:10.1115/1.4048765

Neutronic analysis of the European sodium fast reactor: Part II-burnup results

Emil Fridman
, Francisco Álvarez Velarde
, Pablo Romojaro Otero
, Haile Tsige-Tamirat
, Antonio Jiménez Carrascosa
, Nuria García Herranz
, Franck Bernard
, Robert Gregg
, Una Davies
, Jiri Krepel
, Ben Lindley
, Simone Massara
, Sandra Poumerouly
, Enrico Girardi
, Konstantin Mikityuk

Research output: Contribution to journal › Article › peer-review

12 Scopus citations

Abstract

In the framework of the Horizon 2020 project ESFR-SMART (2017-2021), the European sodium fast reactor (ESFR) core was updated through a safety-related modification and optimization of the core design from the earlier FP7 CP-ESFR project (2009-2013). This study is dedicated to neutronic analyses of the improved ESFR core design. The conducted work is reported in two parts. Part I deals with the evaluation of the safetyrelated neutronic parameters of the fresh beginning-of-life (BOL) core carried out by eight organizations using both continuous energy Monte Carlo and deterministic computer codes. In addition to the neutronics characterization of the core, a special emphasis was put on the calibration and verification of the computational tools involved in the analyses. Part II is devoted to once-through and realistic batchwise burnup calculations aiming at the establishing of the equilibrium core state, which will later serve as a basis for detailed safety analyses.

Original language	English
Article number	011302
Journal	Journal of Nuclear Engineering and Radiation Science
Volume	8
Issue number	1
DOIs	https://doi.org/10.1115/1.4048765
State	Published - 1 Jan 2022
Externally published	Yes

ASJC Scopus subject areas

Radiation
Nuclear Energy and Engineering

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Fridman, E., Velarde, F. Á., Otero, P. R., Tsige-Tamirat, H., Carrascosa, A. J., Herranz, N. G., Bernard, F., Gregg, R., Davies, U., Krepel, J., Lindley, B., Massara, S., Poumerouly, S., Girardi, E., & Mikityuk, K. (2022). Neutronic analysis of the European sodium fast reactor: Part II-burnup results. Journal of Nuclear Engineering and Radiation Science, 8(1), Article 011302. https://doi.org/10.1115/1.4048765

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title = "Neutronic analysis of the European sodium fast reactor: Part II-burnup results",

abstract = "In the framework of the Horizon 2020 project ESFR-SMART (2017-2021), the European sodium fast reactor (ESFR) core was updated through a safety-related modification and optimization of the core design from the earlier FP7 CP-ESFR project (2009-2013). This study is dedicated to neutronic analyses of the improved ESFR core design. The conducted work is reported in two parts. Part I deals with the evaluation of the safetyrelated neutronic parameters of the fresh beginning-of-life (BOL) core carried out by eight organizations using both continuous energy Monte Carlo and deterministic computer codes. In addition to the neutronics characterization of the core, a special emphasis was put on the calibration and verification of the computational tools involved in the analyses. Part II is devoted to once-through and realistic batchwise burnup calculations aiming at the establishing of the equilibrium core state, which will later serve as a basis for detailed safety analyses.",

author = "Emil Fridman and Velarde, \{Francisco {\'A}lvarez\} and Otero, \{Pablo Romojaro\} and Haile Tsige-Tamirat and Carrascosa, \{Antonio Jim{\'e}nez\} and Herranz, \{Nuria Garc{\'i}a\} and Franck Bernard and Robert Gregg and Una Davies and Jiri Krepel and Ben Lindley and Simone Massara and Sandra Poumerouly and Enrico Girardi and Konstantin Mikityuk",

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Fridman, E, Velarde, FÁ, Otero, PR, Tsige-Tamirat, H, Carrascosa, AJ, Herranz, NG, Bernard, F, Gregg, R, Davies, U, Krepel, J, Lindley, B, Massara, S, Poumerouly, S, Girardi, E & Mikityuk, K 2022, 'Neutronic analysis of the European sodium fast reactor: Part II-burnup results', Journal of Nuclear Engineering and Radiation Science, vol. 8, no. 1, 011302. https://doi.org/10.1115/1.4048765

TY - JOUR

T1 - Neutronic analysis of the European sodium fast reactor

T2 - Part II-burnup results

AU - Fridman, Emil

AU - Velarde, Francisco Álvarez

AU - Otero, Pablo Romojaro

AU - Tsige-Tamirat, Haile

AU - Carrascosa, Antonio Jiménez

AU - Herranz, Nuria García

AU - Bernard, Franck

AU - Gregg, Robert

AU - Davies, Una

AU - Krepel, Jiri

AU - Lindley, Ben

AU - Massara, Simone

AU - Poumerouly, Sandra

AU - Girardi, Enrico

AU - Mikityuk, Konstantin

PY - 2022/1/1

Y1 - 2022/1/1

N2 - In the framework of the Horizon 2020 project ESFR-SMART (2017-2021), the European sodium fast reactor (ESFR) core was updated through a safety-related modification and optimization of the core design from the earlier FP7 CP-ESFR project (2009-2013). This study is dedicated to neutronic analyses of the improved ESFR core design. The conducted work is reported in two parts. Part I deals with the evaluation of the safetyrelated neutronic parameters of the fresh beginning-of-life (BOL) core carried out by eight organizations using both continuous energy Monte Carlo and deterministic computer codes. In addition to the neutronics characterization of the core, a special emphasis was put on the calibration and verification of the computational tools involved in the analyses. Part II is devoted to once-through and realistic batchwise burnup calculations aiming at the establishing of the equilibrium core state, which will later serve as a basis for detailed safety analyses.

AB - In the framework of the Horizon 2020 project ESFR-SMART (2017-2021), the European sodium fast reactor (ESFR) core was updated through a safety-related modification and optimization of the core design from the earlier FP7 CP-ESFR project (2009-2013). This study is dedicated to neutronic analyses of the improved ESFR core design. The conducted work is reported in two parts. Part I deals with the evaluation of the safetyrelated neutronic parameters of the fresh beginning-of-life (BOL) core carried out by eight organizations using both continuous energy Monte Carlo and deterministic computer codes. In addition to the neutronics characterization of the core, a special emphasis was put on the calibration and verification of the computational tools involved in the analyses. Part II is devoted to once-through and realistic batchwise burnup calculations aiming at the establishing of the equilibrium core state, which will later serve as a basis for detailed safety analyses.

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JO - Journal of Nuclear Engineering and Radiation Science

JF - Journal of Nuclear Engineering and Radiation Science

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ER -

Neutronic analysis of the European sodium fast reactor: Part II-burnup results

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