The article discusses the neutron flux stability in the core of a high-power sodium-cooled fast reactor (of the BN-type) without feedbacks. The importance of this problem for high-power BN-type reactors is associated with the specific features of the layout of their cores, including a large diameter and height/diameter ratio about 5. The technique used to substantiate the stability of neutron fields is based on the analysis of the spectrum of the matrix of the system of spatial kinetics equations describing the core of a high-power BN-type reactor without feedbacks. A computational model of the spatial kinetics of a high-power BN-type reactor has been developed in the modal approximation based on the representation of an unsteady flux as a ...
In this work, non-modal stability theory is used to study the non-linear dynamics of the Pressurised...
In this paper, two modelling approaches based on a Modal Method (MM) and on the Proper Orthogonal De...
The stability analysis of a nuclear reactor is an important aspect in the design and operation of...
The dynamic behavior of a fast reactor, when the neutron flux is considered as a function of time, i...
The most diffused neutronics modeling approach in control-oriented simulators is pointwise kinetics....
In control-oriented simulators, the neutronics is usually modeled by implementing the point-wise kin...
Abstract: Algorithms are obtained to compute spatial kinetics of nuclear reactor in diffus...
This dissertation is aimed at nuclear-coupled thermal hydraulics stability analysis of a natural ci...
In this paper, numerical methods aiming at determining the eigenfunctions, their adjoint and the cor...
The qualitative and quantitative assessment of the thermal reactivity feedbacks occurring in a nucle...
A fast reactor may be defined as a reactor in which the neutron energy distribution differs as littl...
International audienceThe assessment of point kinetics models validity is particularly important for...
The need for energy is growing in the world and the market of nuclear power is now once more expandi...
In this work, non-modal stability theory is used to study the non-linear dynamics of the Pressurised...
In this paper, two modelling approaches based on a Modal Method (MM) and on the Proper Orthogonal De...
The stability analysis of a nuclear reactor is an important aspect in the design and operation of...
The dynamic behavior of a fast reactor, when the neutron flux is considered as a function of time, i...
The most diffused neutronics modeling approach in control-oriented simulators is pointwise kinetics....
In control-oriented simulators, the neutronics is usually modeled by implementing the point-wise kin...
Abstract: Algorithms are obtained to compute spatial kinetics of nuclear reactor in diffus...
This dissertation is aimed at nuclear-coupled thermal hydraulics stability analysis of a natural ci...
In this paper, numerical methods aiming at determining the eigenfunctions, their adjoint and the cor...
The qualitative and quantitative assessment of the thermal reactivity feedbacks occurring in a nucle...
A fast reactor may be defined as a reactor in which the neutron energy distribution differs as littl...
International audienceThe assessment of point kinetics models validity is particularly important for...
The need for energy is growing in the world and the market of nuclear power is now once more expandi...
In this work, non-modal stability theory is used to study the non-linear dynamics of the Pressurised...
In this paper, two modelling approaches based on a Modal Method (MM) and on the Proper Orthogonal De...
The stability analysis of a nuclear reactor is an important aspect in the design and operation of...