International audienceMinor actinides transmutation is a solution to decrease the long-term radiotoxicity of nuclear waste and limit their short-term decay heat. In the homogenous approach, minor actinides are mixed in the fuel and loaded in the core in order to turn them into fission products. This leads to a neutron spectrum hardening in the core, which has a negative impact on the core integral feedback coefficients such as the Doppler Effect or the sodium void worth. Analysis of these impacts was used in the past to establish limit on maximal minor actinides loading in a reactor core. Low-void cores (CFV in French) have been recently developed by CEA to achieve negative sodium void worth by adding axial heterogeneities in the core layou...
paper 9205International audienceThe future of nuclear energy may require breeding and optimized wast...
La transmutation des actinides mineurs est une solution inscrite dans la loi de 2006 sur la gestion ...
Nuclear energy systems of the future must rise to the twin challenges of sustainable energy producti...
International audienceMinor actinides transmutation is a solution to decrease the long-term radiotox...
In sodium fast reactor designs, the fuel related inherent negative reactivity feedback is accomplish...
International audienceMinor actinides transmutation is one of the three main axis defined by the 200...
International audienceThe reduction of the initial excess reactivity in fast reactor cores would enh...
This paper shows that lead-cooled and sodium-cooled fast reactors (LFRs and SFRs) can preferentially...
An analysis of the influence of addition of minor actinides (MA) to the fast reactor fuel on the mos...
AbstractTo fulfill safety of fast sodium reactors in a beyond design-basis accident (BDBA) like unpr...
Minor actinides transmutation is a solution written in the 2006 law on nuclear waste management. One...
This paper presents a new design for a small modular sodium-cooled fast reactor core with an optimiz...
To meet the requirements of mitigating the climate change, a large scale deployment of nuclear energ...
International audienceIn Fast Reactor systems the heterogeneous minor actinides transmutation is a p...
International audienceNuclear reactors exhibit excess reactivity at start-up to ensure continuous op...
paper 9205International audienceThe future of nuclear energy may require breeding and optimized wast...
La transmutation des actinides mineurs est une solution inscrite dans la loi de 2006 sur la gestion ...
Nuclear energy systems of the future must rise to the twin challenges of sustainable energy producti...
International audienceMinor actinides transmutation is a solution to decrease the long-term radiotox...
In sodium fast reactor designs, the fuel related inherent negative reactivity feedback is accomplish...
International audienceMinor actinides transmutation is one of the three main axis defined by the 200...
International audienceThe reduction of the initial excess reactivity in fast reactor cores would enh...
This paper shows that lead-cooled and sodium-cooled fast reactors (LFRs and SFRs) can preferentially...
An analysis of the influence of addition of minor actinides (MA) to the fast reactor fuel on the mos...
AbstractTo fulfill safety of fast sodium reactors in a beyond design-basis accident (BDBA) like unpr...
Minor actinides transmutation is a solution written in the 2006 law on nuclear waste management. One...
This paper presents a new design for a small modular sodium-cooled fast reactor core with an optimiz...
To meet the requirements of mitigating the climate change, a large scale deployment of nuclear energ...
International audienceIn Fast Reactor systems the heterogeneous minor actinides transmutation is a p...
International audienceNuclear reactors exhibit excess reactivity at start-up to ensure continuous op...
paper 9205International audienceThe future of nuclear energy may require breeding and optimized wast...
La transmutation des actinides mineurs est une solution inscrite dans la loi de 2006 sur la gestion ...
Nuclear energy systems of the future must rise to the twin challenges of sustainable energy producti...