A way to confine potential consequences of an accident in a nuclear reactor is to limit the number of fuel rods expected to fail in the course of the incident. Particularly, the safety regulations in Finland require that the number of failed fuel rods in the most severe accident scenario would be less than 10% of all the rods. In safety assessments, the estimation of the fraction of failing rods is conventionally based on conservative analyses, but this approach has several downsides. Sometimes it is hard to judge whether the assumptions are conservative because the phenomena in the reactor are highly nonlinear. Additionally, conservative methods often lead to excessive margins and that way to economic losses. As a result, statistical best-...
Over the last decades the importance of fuel-specific processes for safety analysis has grown, due t...
When designing a nuclear power plant and its fuel, certain accidents are postulated to occur with a ...
Analysis of the uncertainty quantification related to nuclear safety margins applied to the nuclear ...
A way to confine potential consequences of an accident in a nuclear reactor is to limit the number o...
Assessment, validation, and further development of the fuel behaviour codes in use at VTT have been ...
VTT acquires and maintains independent calculation tools to be applied to fuel performance analyses ...
In this paper, the number of failing fuel rods in a large break loss-of-coolant accident (LB-LOCA) i...
A statistical fuel failure analysis procedure has been developed, and now applied in full scale to a...
A statistical fuel failure analysis procedure has been developed, and now applied in full scale to a...
Advancements in updating, improving, and extending of fuel performance codes in use at VTT have been...
In this study, a surrogate support vector machine (SVM) model is used to predict fuel cladding failu...
In assuring reactor safety with increasing target burnups, fuel behaviour in postulated accident con...
The coolant activity analysis to obtain the information about the fuel failure has been studied long...
Accurately predicting the behavior of nuclear fuel performance is essential for the safe and economi...
When designing a nuclear power plant and its fuel, certain accidents are postulated to occur with a ...
Over the last decades the importance of fuel-specific processes for safety analysis has grown, due t...
When designing a nuclear power plant and its fuel, certain accidents are postulated to occur with a ...
Analysis of the uncertainty quantification related to nuclear safety margins applied to the nuclear ...
A way to confine potential consequences of an accident in a nuclear reactor is to limit the number o...
Assessment, validation, and further development of the fuel behaviour codes in use at VTT have been ...
VTT acquires and maintains independent calculation tools to be applied to fuel performance analyses ...
In this paper, the number of failing fuel rods in a large break loss-of-coolant accident (LB-LOCA) i...
A statistical fuel failure analysis procedure has been developed, and now applied in full scale to a...
A statistical fuel failure analysis procedure has been developed, and now applied in full scale to a...
Advancements in updating, improving, and extending of fuel performance codes in use at VTT have been...
In this study, a surrogate support vector machine (SVM) model is used to predict fuel cladding failu...
In assuring reactor safety with increasing target burnups, fuel behaviour in postulated accident con...
The coolant activity analysis to obtain the information about the fuel failure has been studied long...
Accurately predicting the behavior of nuclear fuel performance is essential for the safe and economi...
When designing a nuclear power plant and its fuel, certain accidents are postulated to occur with a ...
Over the last decades the importance of fuel-specific processes for safety analysis has grown, due t...
When designing a nuclear power plant and its fuel, certain accidents are postulated to occur with a ...
Analysis of the uncertainty quantification related to nuclear safety margins applied to the nuclear ...