The sensitivity of the reactivity of a fast reactor core to changes in its geometry and/or fuel relocation calls for particular attention with regard to criticality events. A category of these events, the so-called Core Disruptive Accidents (CDAs), are intensively studied in the safety assessment of Sodium-cooled Fast Reactors (SFRs), and more recently also in the case of other systems. Differences between SFRs and Heavy Liquid Metal Fast Reactors (HLMFRs) are significant and therefore warrant an understanding of phenomena and the development of models specific to HLMFRs. This paper provides a qualitative overview of the physics relevant to the investigation of a CDA in HLMFR, with a particular application to the Multipurpose hYbrid Researc...
International audienceWithin the framework of long term prospective studies, an inherently-safe Sodi...
The hypothetical core disruptive accident in an LMFBR is discussed under the following main headings...
Fuel pins in Sodium cooled Fast Reactors (SFR) are arranged in a tightly packed triangular pitch wit...
The sensitivity of the reactivity of a fast reactor core to changes in its geometry and/or fuel relo...
Criticality and recriticality considerations in heavy liquid metal fast reactors (HLMFRs) after a hy...
International audienceThe nuclear safety approach has to cover accident sequences involving core deg...
With increasing demand for understanding Severe Accident Scenario in Sodium Cooled Fast Reactors, th...
A hypothetical core destructive accident (HCDA) has received widespread attention as one of the most...
This work concerns the assessment of the consequences deriving from a Hypothetical Core Disruptive A...
International audienceNuclear reactors exhibit excess reactivity at start-up to ensure continuous op...
International audienceSodium-cooled Fast Reactors (SFR) are investigated as future Generation IV rea...
The field of recriticality possibilities in both light water reactors and fast reactors remains an i...
International audienceTo consolidate the safety assessment for Sodium Fast Reactors, hypothetical co...
<p>The SIMMER code has been developed to analyze event progression during core disruptive accidents ...
International audienceWithin the framework of the Generation IV Sodium-cooled Fast Reactors (SFR) R ...
International audienceWithin the framework of long term prospective studies, an inherently-safe Sodi...
The hypothetical core disruptive accident in an LMFBR is discussed under the following main headings...
Fuel pins in Sodium cooled Fast Reactors (SFR) are arranged in a tightly packed triangular pitch wit...
The sensitivity of the reactivity of a fast reactor core to changes in its geometry and/or fuel relo...
Criticality and recriticality considerations in heavy liquid metal fast reactors (HLMFRs) after a hy...
International audienceThe nuclear safety approach has to cover accident sequences involving core deg...
With increasing demand for understanding Severe Accident Scenario in Sodium Cooled Fast Reactors, th...
A hypothetical core destructive accident (HCDA) has received widespread attention as one of the most...
This work concerns the assessment of the consequences deriving from a Hypothetical Core Disruptive A...
International audienceNuclear reactors exhibit excess reactivity at start-up to ensure continuous op...
International audienceSodium-cooled Fast Reactors (SFR) are investigated as future Generation IV rea...
The field of recriticality possibilities in both light water reactors and fast reactors remains an i...
International audienceTo consolidate the safety assessment for Sodium Fast Reactors, hypothetical co...
<p>The SIMMER code has been developed to analyze event progression during core disruptive accidents ...
International audienceWithin the framework of the Generation IV Sodium-cooled Fast Reactors (SFR) R ...
International audienceWithin the framework of long term prospective studies, an inherently-safe Sodi...
The hypothetical core disruptive accident in an LMFBR is discussed under the following main headings...
Fuel pins in Sodium cooled Fast Reactors (SFR) are arranged in a tightly packed triangular pitch wit...