Add to ORKGAbstract: Two explicit cyclic algorithms have been constructed in this paper for the problem on spatial kinetics of nuclear reactors. The first algorithm is based on explicit cyclic schemes with varying time steps proposed earlier by V. I. Lebedev to solve stiff problems [1,2]. The second algorithm is based on the method of local iterations proposed by O.V. Lokutsievskiy and V.O. Lokutsievskiy for the parabolic equation [3] and further developed by V. T. Zhukov [4]. The application of these algorithms for neutron kinetics is an urgent problem, because they allow to overcome the well known disadvantages of simple explicit schemes (too rigid requirements on time steps that result in big computing times) and yet to retain their logic...
International audienceThis work investigates the solution of the multigroup neutron transport equati...
New solution methods suitable for efficient parallel computation of reactor spatial kinetics problem...
The improvement of the thory and methodology of the reactor calculation for the increase of the qual...
Abstract: Algorithms are obtained to compute spatial kinetics of nuclear reactor in diffus...
A new method based on shifted Chebyshev series of the first kind is introduced to solve stiff linear...
A relatively rapid solution method is proposed which utilizes the newton's technique to directly sol...
The accurate knowledge of the time-dependent spatial flux distribution in nuclear reactor is require...
SIMMER is a coupled (neutronics, thermal-hydraulics, structure) code for nuclear reactor safety stud...
The object of investigation: the design algorithms for the neutron fields in the nuclear reactors. T...
Abstract: This work is devoted to investigation of quasistatic approximation effectiveness...
International audienceThis work investigates the solution of the multigroup neutron transport equati...
Abstract: Realization of the implicit scheme for numerical integration of the equations of...
The numerical solution of time dependent neutron diffusion approximation to the transport equation i...
Abstract: In work the short review of activities of Department of kinetic equations of Ke...
A specificity of nuclear reactors is their multiphysics and multiscale character. The multiphysics n...
International audienceThis work investigates the solution of the multigroup neutron transport equati...
New solution methods suitable for efficient parallel computation of reactor spatial kinetics problem...
The improvement of the thory and methodology of the reactor calculation for the increase of the qual...
Abstract: Algorithms are obtained to compute spatial kinetics of nuclear reactor in diffus...
A new method based on shifted Chebyshev series of the first kind is introduced to solve stiff linear...
A relatively rapid solution method is proposed which utilizes the newton's technique to directly sol...
The accurate knowledge of the time-dependent spatial flux distribution in nuclear reactor is require...
SIMMER is a coupled (neutronics, thermal-hydraulics, structure) code for nuclear reactor safety stud...
The object of investigation: the design algorithms for the neutron fields in the nuclear reactors. T...
Abstract: This work is devoted to investigation of quasistatic approximation effectiveness...
International audienceThis work investigates the solution of the multigroup neutron transport equati...
Abstract: Realization of the implicit scheme for numerical integration of the equations of...
The numerical solution of time dependent neutron diffusion approximation to the transport equation i...
Abstract: In work the short review of activities of Department of kinetic equations of Ke...
A specificity of nuclear reactors is their multiphysics and multiscale character. The multiphysics n...
International audienceThis work investigates the solution of the multigroup neutron transport equati...
New solution methods suitable for efficient parallel computation of reactor spatial kinetics problem...
The improvement of the thory and methodology of the reactor calculation for the increase of the qual...