Accuracy analysis of BN-600 power density calculations

Blyskavka, A. A.; Moiseev, A. V.; Semenov, M. Yu.; Seregin, A. S.; Khomyakov, Yu. S.; Tsibulya, A. M.; Belov, A. A.; Seleznev, E. F.; Vasil’ev, B. A.; Farakshin, M. R.

doi:10.1007/s10512-010-9260-9

Cited by 5 publications

(3 citation statements)

References 3 publications

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“…The calculation and experiment discrepancies in the distributions of the 235 U and 239 Pu fission reaction rates in the steel radial blanket of a fast reactor at a level of 20 to 25% were recorded earlier in (Danilychev et al 2002;Kochetkov et al 2007;Mitenkova and Novikov 2011a). The results obtained in the study do not contradict to the calculation accuracies for the distributions of the power density field in a steel blanket evaluated earlier in (Blyskavka et al 2010;Mitenkova and Novikov 2011). An analysis of the BFS-66-B series experiments has however shown that a reduction in the calculation and experiment discrepancies to the measurement error level for the Cr 18% and Cr 28% steel grades can be explained by an overcompensati- on of errors in determining the Fe, Cr and Ni isotope neutron cross-sections.…”

Section: Analysis Of the Calculation Resultssupporting

confidence: 54%

Precision neutronic calculations of experiments on the neutron transmission through the reflector layers at the BFS critical facilities for expanding the verification database to justify lead cooled fast reactor designs

Andrianova¹,

Teplukhina²,

Zherdev³

et al. 2020

NUCET

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The paper presents the results of the efforts concerned with expanding the verification database and estimating the calculation uncertainty of the power density in the steel reflector of lead cooled fast reactor designs based on experiments performed in different years at the BFS critical assemblies by analyzing and revising earlier calculation and experimental studies on the transmission of neutrons through the steel reflector layers. The discussion includes experiments at the BFS-66 critical assembly to model neutron and photon fluxes in the reactor core shielding compositions, as well as experiments at the BFS-64 and BFS-80-2 critical assemblies to model the transmission of neutrons and gamma quanta through the reflector layers of various materials. The information provided in earlier materials with the descriptions of the above experiments has been analyzed and expanded through respective data required to prepare precision calculation models for Monte-Carlo neutronic codes. Precision neutronic models have been developed based on actualized and updated data with a detailed description of the BFS heterogeneous structure and experimental devices, and test calculations have been carried out to confirm their efficiency. The calculations of key neutronic characteristics measured at the BFS-66, -64 and -80-2 assemblies were performed using codes based on the Monte Carlo method (MCU-BR, MCNP, MMK-RF, MMK-ROKOKO) with BNAB-RF and MDBBR50 neutron data and the ROSFOND evaluated neutron data library. The developed precision calculation neutronic models of the experiments discussed can be used to justify lead cooled fast reactor designs, to verify neutronic codes and neutron data, and to evaluate the associated uncertainties.

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Section: Analysis Of the Calculation Resultssupporting

confidence: 54%

Precision neutronic calculations of experiments on the neutron transmission through the reflector layers at the BFS critical facilities for expanding the verification database to justify lead cooled fast reactor designs

Andrianova¹,

Teplukhina²,

Zherdev³

et al. 2020

NUCET

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“…Расчетно экспериментальные расхождения распределений скоростей реакций деле ния 235 U и 239 Pu в стальном боковом экране быстрого реактора, лежащие на уровне 20 -25%, отмечались ранее в [10 -12]. Полученные в работе результаты не противоречат ранее оцененным в [13] точностям расчета распределения поля энерговыделения в стальном экране. Однако анализ экспериментов серии БФС 66 Б показал, что снижение расчетно экспериментальных расхождений до уровня погрешности измерений для ста лей марки X18 и X28 может быть обусловлено перекомпенсацией ошибок в определе нии сечений изотопов Fe, Cr и Ni.…”

Section: результаты расчетовunclassified

Calculation analysis of experiments on passing neutrons through the reflector layers at the BFSs critical assemblies for complementing the lead-cooled fast reactor verification database

Zherdev

Andrianova

Borovskaya

et al. 2020

YadEn

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“…was calculated using a Monte Carlo code(Blyskavka et al 2001, Zherdev et al 2018 with the BNAB-93 and BNAB-RF group neutron constants, as well as with evaluated neutron data files of the Russian ROSFOND library and versions of U.S., European and Japanese libraries from different years (ENDF, JEFF, JENDL).…”

mentioning

confidence: 99%

Calculation and experimental analysis of benchmark experiments with a fast neutron spectrum and models of sodium and lead cooled fast reactors using different evaluated nuclear data libraries

Andrianova

Golovko

Lomakov

et al. 2021

NUCET

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The paper presents the results of a comparative analysis of criticality calculations using a Monte-Carlo code with the BNAB-93 and BNAB-RF neutron group constants, as well as with evaluated neutron data files from the Russian ROSFOND evaluated nuclear data library and other evaluated nuclear data libraries (ENDF, JEFF, JENDL) from different years. A set of integral experiments on BFS critical assemblies carried out in different years at the Institute of Physics and Power Engineering (60 different critical configurations) was analyzed. The considered integral experiments are included in the database of evaluated experimental neutronic data used to justify the neutronic performance of sodium and lead cooled fast reactors, to verify codes and nuclear data as well as to estimate uncertainties in neutronic parameters due to the nuclear data uncertainties. It has been shown that the ROSFOND evaluated nuclear data library is a library that minimizes the calculation and experimental discrepancies for the considered set of integral experiments. The paper also presents the results of criticality calculations for models of sodium and lead cooled fast reactors based on different evaluated neutron data libraries and provides estimates for the uncertainty in criticality associated with nuclear data.

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Accuracy analysis of BN-600 power density calculations

Cited by 5 publications

References 3 publications

Precision neutronic calculations of experiments on the neutron transmission through the reflector layers at the BFS critical facilities for expanding the verification database to justify lead cooled fast reactor designs

Precision neutronic calculations of experiments on the neutron transmission through the reflector layers at the BFS critical facilities for expanding the verification database to justify lead cooled fast reactor designs

Calculation analysis of experiments on passing neutrons through the reflector layers at the BFSs critical assemblies for complementing the lead-cooled fast reactor verification database

Calculation and experimental analysis of benchmark experiments with a fast neutron spectrum and models of sodium and lead cooled fast reactors using different evaluated nuclear data libraries

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