In the present paper, firstly, we review our previous works on uncertainty quantification (UQ) of reactor physics parameters. This consists of (1) development of numerical tools based on the depletion perturbation theory (DPT), (2) linearity of reactor physics parameters to nuclear data, (3) UQ of decay heat and its reduction, and (4) correlation between decay heat and β-delayed neutrons emission. Secondly, we show results of extensive calculations about UQ on decay heat with several different numerical conditions by the DPT-based capability of a reactor physics code system CBZ
In this study, the Best Estimate Plus Uncertainty (BEPU) approach is developed for the systematic qu...
Fission product yields are fundamental parameters for several nuclear engineering calculations and i...
Fission yield uncertainties and correlations should be considered in the uncertainty quantification ...
In the present paper, firstly, we review our previous works on uncertainty quantification (UQ) of re...
Nuclear data-induced uncertainties of infinite neutron multiplication factors (k) during fuel deplet...
The knowledge of the decay heat quantity and the associated uncertainties are important issues for t...
The key papers on estimating the uncertainties in nuclear data deal with the influence of these unce...
Uncertainty quantification of interest outputs in nuclear fuel cycle is an important issue for nucle...
In this paper, we present an uncertainty methodology based on a statistical approach, for assessing ...
The accurate prediction of the decay heat is essential, especially for nuclear power plant safety pu...
International audienceUncertainty quantification of interest outputs based on the nuclear data is an...
Fissionproductyields(FY)arefundamentalnucleardataforseveralapplications,includingdecay heat, shieldi...
International audienceIn modern nuclear technology, integral reactor parameter uncertainty evaluatio...
In modern nuclear technology, integral reactor parameter uncertainty evaluation plays a crucial role...
The paper demonstrates the influence of uncertainties in microscopic nuclear data on the results of ...
In this study, the Best Estimate Plus Uncertainty (BEPU) approach is developed for the systematic qu...
Fission product yields are fundamental parameters for several nuclear engineering calculations and i...
Fission yield uncertainties and correlations should be considered in the uncertainty quantification ...
In the present paper, firstly, we review our previous works on uncertainty quantification (UQ) of re...
Nuclear data-induced uncertainties of infinite neutron multiplication factors (k) during fuel deplet...
The knowledge of the decay heat quantity and the associated uncertainties are important issues for t...
The key papers on estimating the uncertainties in nuclear data deal with the influence of these unce...
Uncertainty quantification of interest outputs in nuclear fuel cycle is an important issue for nucle...
In this paper, we present an uncertainty methodology based on a statistical approach, for assessing ...
The accurate prediction of the decay heat is essential, especially for nuclear power plant safety pu...
International audienceUncertainty quantification of interest outputs based on the nuclear data is an...
Fissionproductyields(FY)arefundamentalnucleardataforseveralapplications,includingdecay heat, shieldi...
International audienceIn modern nuclear technology, integral reactor parameter uncertainty evaluatio...
In modern nuclear technology, integral reactor parameter uncertainty evaluation plays a crucial role...
The paper demonstrates the influence of uncertainties in microscopic nuclear data on the results of ...
In this study, the Best Estimate Plus Uncertainty (BEPU) approach is developed for the systematic qu...
Fission product yields are fundamental parameters for several nuclear engineering calculations and i...
Fission yield uncertainties and correlations should be considered in the uncertainty quantification ...