Add to ORKGThe paper is devoted to the analysis of the importance of fluid-dynamics phenomena in the neutronic simulation of fluid-fuel multiplying nuclear systems. The motion of the delayed neutron precursors has important effects on both steady-state and transient situations. In this paper the role of the motion is studied by assuming that the coupled neutronic-fluid-dynamics model is simplified, introducing different velocity fields as input data for the delayed neutron precursor balance equations. Significant effects are evidenced for steady-state spatial distributions and integral parameters, such as reactivity and effective delayed neutron fractions. Full time-dependent evaluations are also performed to investigate the response in different syst...
This paper presents a multi-physics modelling (MPM) approach developed for the study of the dynamics...
In this paper we present transient studies of the Molten Salt Fast Reactor (MSFR). This generation I...
This paper presents a preliminary analysis of the coupled thermo-hydrodynamics and neutronics of cir...
The paper is devoted to the analysis of the importance of fluid-dynamics phenomena in the neutronic...
In this paper, the zero-power behavior of circulating fuel reactors (CFRs) has been investigated by ...
Modeling and simulation of neutron kinetics in liquid-fueled nuclear reactors incorporates three maj...
The quasi-static method for the neutron kinetics of nuclear reactors is generalized for application ...
The goal of this work was to calculate the impact of the delayed neutron precursor drift in fast spe...
Molten salt reactors (MSRs) have gained worldwide interest in recent years due to their appealing sa...
In the paper, the development of a multiphysics model for the transient analysis of non-moderated Mo...
International audienceCoupled neutronics and thermalhydraulic numerical analyses of a molten salt fa...
This paper deals with the calculation of the effective delayed neutron fraction (betaeff) in circula...
This paper presents a multi-physics modelling (MPM) approach developed for the study of the dynamics...
In this paper we present transient studies of the Molten Salt Fast Reactor (MSFR). This generation I...
This paper presents a preliminary analysis of the coupled thermo-hydrodynamics and neutronics of cir...
The paper is devoted to the analysis of the importance of fluid-dynamics phenomena in the neutronic...
In this paper, the zero-power behavior of circulating fuel reactors (CFRs) has been investigated by ...
Modeling and simulation of neutron kinetics in liquid-fueled nuclear reactors incorporates three maj...
The quasi-static method for the neutron kinetics of nuclear reactors is generalized for application ...
The goal of this work was to calculate the impact of the delayed neutron precursor drift in fast spe...
Molten salt reactors (MSRs) have gained worldwide interest in recent years due to their appealing sa...
In the paper, the development of a multiphysics model for the transient analysis of non-moderated Mo...
International audienceCoupled neutronics and thermalhydraulic numerical analyses of a molten salt fa...
This paper deals with the calculation of the effective delayed neutron fraction (betaeff) in circula...
This paper presents a multi-physics modelling (MPM) approach developed for the study of the dynamics...
In this paper we present transient studies of the Molten Salt Fast Reactor (MSFR). This generation I...
This paper presents a preliminary analysis of the coupled thermo-hydrodynamics and neutronics of cir...