The code DYN3D/M2 was developed for steady-state and transient analysis of reactor cores with hexagonal fuel assemblies. The new version DYN3DR contains a method for neutron kinetics solving the two group neutron diffusion equation by a nodal method for cartesian geometry. The thermal-hydraulic model FLOCAL simulating the two phase flow of coolant and the fuel rod hehaviour is used in the two versions. The fundamentals of the neutron kinetics are described. The accuracy of the code is demonstated by comparisons with the results of rod ejection benchmarks for PWR with rectangular fuel assemblies. The developed algorithm of neutron kinetics are suitable for using parallel processing. The speedup of neutronic calculation is demonstrated for ...
The reactor dynamics code DYN3D being developed at the Helmholtz-Zentrum Dresden-Rossendorf is curre...
A coupled neutronics thermal-hydraulics code NODAL3 has been developed based on the few-group neutro...
A loosely coupled reactor is subject to local perturbations due to reactivity device movement that a...
The code DYN3D/M2 was developed for steady-state and transient analysis of reactor cores with hexago...
Der Code DYN3D/M2 wurde fuer 3-dimensionale stationaere und transiente Analysen von Reaktorkernen mi...
The code DYN3D/M2 is used for investigations of reactivity transients in cores of thermal power reac...
DYN3D is an best estimate advanced code for the three-dimensional simulation of steady-states and tr...
DYN3D reactor dynamics nodal diffusion code was originally developed for the analysis of Light Water...
Libraries of two-group neutron-diffusion parameters for a Siemens-KWU-Konvoi Pressurized Water React...
Analyzing the safety margins in transients and accidents of nuclear reactors 3-dimensional models of...
The Institute for Neutron Physics and Reactor Technology (INR) at the Karlsruhe Institute of Technol...
The superior advantage of a nodal method for reactor cores with hexagonal fuel assemblies discretize...
Analyzing the safety margins in transients and accidents of nuclear reactors 3-dimensional models of...
The main goal of the project was the coupling of the 3D core model DYN3D for Russian VVER-type react...
Analyzing the safety margins in transients and accidents of nuclear reactors 3-dimensional models of...
The reactor dynamics code DYN3D being developed at the Helmholtz-Zentrum Dresden-Rossendorf is curre...
A coupled neutronics thermal-hydraulics code NODAL3 has been developed based on the few-group neutro...
A loosely coupled reactor is subject to local perturbations due to reactivity device movement that a...
The code DYN3D/M2 was developed for steady-state and transient analysis of reactor cores with hexago...
Der Code DYN3D/M2 wurde fuer 3-dimensionale stationaere und transiente Analysen von Reaktorkernen mi...
The code DYN3D/M2 is used for investigations of reactivity transients in cores of thermal power reac...
DYN3D is an best estimate advanced code for the three-dimensional simulation of steady-states and tr...
DYN3D reactor dynamics nodal diffusion code was originally developed for the analysis of Light Water...
Libraries of two-group neutron-diffusion parameters for a Siemens-KWU-Konvoi Pressurized Water React...
Analyzing the safety margins in transients and accidents of nuclear reactors 3-dimensional models of...
The Institute for Neutron Physics and Reactor Technology (INR) at the Karlsruhe Institute of Technol...
The superior advantage of a nodal method for reactor cores with hexagonal fuel assemblies discretize...
Analyzing the safety margins in transients and accidents of nuclear reactors 3-dimensional models of...
The main goal of the project was the coupling of the 3D core model DYN3D for Russian VVER-type react...
Analyzing the safety margins in transients and accidents of nuclear reactors 3-dimensional models of...
The reactor dynamics code DYN3D being developed at the Helmholtz-Zentrum Dresden-Rossendorf is curre...
A coupled neutronics thermal-hydraulics code NODAL3 has been developed based on the few-group neutro...
A loosely coupled reactor is subject to local perturbations due to reactivity device movement that a...