The knowledge of the decay heat quantity and the associated uncertainties are important issues for the safety of nuclear facilities. Many codes are available to estimate the decay heat. ORIGEN, FISPACT, DARWIN/PEPIN2 are part of them. MENDEL is a new depletion code developed at CEA, with new software architecture, devoted to the calculation of physical quantities related to fuel cycle studies, in particular decay heat. The purpose of this paper is to present a probabilistic approach to assess decay heat uncertainty due to the decay data uncertainties from nuclear data evaluation like JEFF-3.1.1 or ENDF/B-VII.1. This probabilistic approach is based both on MENDEL code and URANIE software which is a CEA uncertainty analysis platform. As preli...
This PhD study is in the field of nuclear energy, the back end of nuclear fuel cycle and uncertainty...
Radioactivity and decay power of spent MOX fuel are very crucial in term of storage or disposal. In ...
Decay heat is the thermal power released by radioactive decays of unstable isotopes after the nuclea...
The knowledge of the decay heat quantity and the associated uncertainties are important issues for t...
Uncertainty quantification of interest outputs in nuclear fuel cycle is an important issue for nucle...
In the present paper, firstly, we review our previous works on uncertainty quantification (UQ) of re...
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...
International audienceA good knowledge of the decay heat of the various elements of the core (fissil...
International audienceUncertainty quantification of interest outputs in nuclear fuel cycle is an imp...
International audienceA good knowledge of the decay heat of the various elements of the core (fissil...
International audienceThe decay heat is a crucial issue for in-core safety after reactor shutdown an...
Decay heat is a crucial issue for in-core safety after reactor shutdown and the back-end cycle. An a...
International audienceThe DARWIN2.3 package is dedicated to spent fuel characterization in general a...
Decay heat residuals of spent nuclear fuel (SNF), i.e., the differences between calculations and mea...
This PhD study is in the field of nuclear energy, the back end of nuclear fuel cycle and uncertainty...
Radioactivity and decay power of spent MOX fuel are very crucial in term of storage or disposal. In ...
Decay heat is the thermal power released by radioactive decays of unstable isotopes after the nuclea...
The knowledge of the decay heat quantity and the associated uncertainties are important issues for t...
Uncertainty quantification of interest outputs in nuclear fuel cycle is an important issue for nucle...
In the present paper, firstly, we review our previous works on uncertainty quantification (UQ) of re...
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...
International audienceA good knowledge of the decay heat of the various elements of the core (fissil...
International audienceUncertainty quantification of interest outputs in nuclear fuel cycle is an imp...
International audienceA good knowledge of the decay heat of the various elements of the core (fissil...
International audienceThe decay heat is a crucial issue for in-core safety after reactor shutdown an...
Decay heat is a crucial issue for in-core safety after reactor shutdown and the back-end cycle. An a...
International audienceThe DARWIN2.3 package is dedicated to spent fuel characterization in general a...
Decay heat residuals of spent nuclear fuel (SNF), i.e., the differences between calculations and mea...
This PhD study is in the field of nuclear energy, the back end of nuclear fuel cycle and uncertainty...
Radioactivity and decay power of spent MOX fuel are very crucial in term of storage or disposal. In ...
Decay heat is the thermal power released by radioactive decays of unstable isotopes after the nuclea...