Hikaru Hiruta scite author profile

This paper presents a global approach to the validation of the parameters that enter into the neutronics simulation tools for advanced fast reactors with the objective to reduce the uncertainties associated to crucial design parameters. This global approach makes use of sensitivity/uncertainty methods; statistical data adjustments; integral experiment selection, analysis and "representativity" quantification with respect to a reference system; scientifically based cross section covariance data and appropriate methods for their use in multigroup calculations. This global approach has been applied to the uncertainty reduction on the criticality of the Advanced Burner Reactor, (both metal and oxide core versions) presently investigated in the frame of the GNEP initiative. The results obtained are very encouraging and allow to indicate some possible improvements of the ENDF/B-VII data file.

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Consistent Data Assimilation of Actinide Isotopes: 235U and 239Pu

Palmiottti¹,

Hiruta²,

Salvatores³

2011

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iii SUMMARYIn this annual report we illustrate the methodology of the consistent data assimilation that allows to use the information coming from integral experiments for improving the basic nuclear parameters used in cross section evaluation.A series of integral experiments were analyzed using the EMPIRE evaluated files for 235 U, 238 U, and 239 Pu. Inmost cases the results have shown quite large worse results with respect to the corresponding existing evaluations available for ENDF/B-VII.The observed discrepancies between calculated and experimental results were used in conjunction with the computed sensitivity coefficients and covariancematrix for nuclear parameters in a consistent data assimilation. Only the GODIVA and JEZEBEL experimental results were used, in order to exploit informations relative to the isotope of interest that are, in this particular case:235 U and 239 Pu.The results obtained by the consistent data assimilation indicate that with reasonable modifications (mostly within the initial standard deviation) it is possible to eliminate the original large discrepancies on the K eff of the two critical configurations. However, some residual discrepancy remains for a few fssion spectral indices that are, most likely, to be attributed to the detector cross sections.

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Hikaru Hiruta

Gamma-rays from an incomplete fusion reaction induced by 95 MeV 14N

ENDF/B-VII.1 Neutron Cross Section Data Testing with Critical Assembly Benchmarks and Reactor Experiments

Combined Use of Integral Experiments and Covariance Data

A global approach to the physics validation of simulation codes for future nuclear systems

Consistent Data Assimilation of Actinide Isotopes: 235U and 239Pu

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