S. Cathalau scite author profile

This paper presents the principles of the peak check measurements by gamma spectrometry. One details the main equations used for the analysis of the raw data as the calculation of the different sources of uncertainties and their propagation on the result. The method is illustrated with actual examples from the French-Japanese BASALA ABWR 100% MOX experimental program. • For each individual fission rate, the systematical uncertainty due to the radioactive decay data is smaller than the statistical uncertainty due to the counting process. • The main part of the final uncertainty on the scaling factor is brought by the systematical uncertainty on the average fission yields. This study enables to propose some recommendations for fission products and nuclear data evaluation used. • Only the analysis of the 140La peak at 1596 keV leads to acceptable uncertainties on the fission rate maps renormalization, with a good consistency with the integral γ-scanning results. • The JEF-2.2 evaluation on the fission yields and their associated uncertainties seems more realistic than the ENDF/B-6 and is recommended for the scaling factor analysis.

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Optimization of a Calculation Scheme for the Treatment of Plutonium Recycling in Pressurized Water Reactors

Fougeras

Cathalau

Mondot

et al. 1995

Nuclear Science and Engineering

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S. Cathalau

MAESTRO: An ambitious experimental programme for the improvement of nuclear data of structural, detection, moderating and absorbing materials - First results for <sup>nat</sup>V, <sup>55</sup>Mn, <sup>59</sup>Co and <sup>103</sup>Rh

Qualification of the JEF2.2 Cross Sections in the Epithermal and Thermal Energy Ranges Using a Statistical Approach

An application of sensitivity and representativity approach for the design of a 100%MOX BWR experimental program in ZPR

Fission Products Particular Peak Measurement for UO2-Gd2O3-MOX γ-Scanning Renormalization in 100% MOX ABWR Mock-Up Cores

Optimization of a Calculation Scheme for the Treatment of Plutonium Recycling in Pressurized Water Reactors

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