The thesis focuses on the development of high accuracy Monte Carlo-thermal hydraulics Multiphysics methods, capable of simulating large-scale reactor physics problems at a single fuel pin resolution. To achieve these objective, methods for both improving the physics models and the numerical efficiency of the Monte Carlo eigenvalue calculations are investigated
This dissertation develops methods to make time-dependent Monte Carlo transport calculations for rea...
The ability to accurately predict local pin powers in nuclear reactors is necessary to understand th...
This thesis investigates the feasibility of Monte Carlo (MC) neutronic calculations that combine mul...
This thesis presents a compilation of work focused on Monte Carlo crit-icality, kinetics and burnup ...
A novel methodology to efficiently perform coupled Monte Carlo (MC)- Thermal Hydraulics (TH) is deve...
This thesis investigates Monte Carlo methods applied to criticality and time-dependent problems in r...
The present thesis describes the coupling of a three-dimensional continuous-energy Monte Carlo react...
Die Kernreaktortechnologie ist ein ausgereiftes Feld mit mehreren Jahrzehnten Evolution und wichtige...
An integrated multi-physics coupling system has been developed for fusion reactor systems analyses. ...
R&D in the nuclear reactor physics demands state-of-the-art numerical tools that are able to cha...
Because of the accuracy and ease of implementation, the Monte Carlo methodology is widely used in th...
Monte Carlo methods have been used as reference reactor physics calculation tools worldwide. The adv...
Monte Carlo neutron transport codes are widely used in various reactor physics applications, traditi...
In coupled calculations with Monte Carlo neutronics and thermal hydraulics the Monte Carlo code is u...
In this work we describe a new method for parallelizing the source iterations in a Monte Carlo criti...
This dissertation develops methods to make time-dependent Monte Carlo transport calculations for rea...
The ability to accurately predict local pin powers in nuclear reactors is necessary to understand th...
This thesis investigates the feasibility of Monte Carlo (MC) neutronic calculations that combine mul...
This thesis presents a compilation of work focused on Monte Carlo crit-icality, kinetics and burnup ...
A novel methodology to efficiently perform coupled Monte Carlo (MC)- Thermal Hydraulics (TH) is deve...
This thesis investigates Monte Carlo methods applied to criticality and time-dependent problems in r...
The present thesis describes the coupling of a three-dimensional continuous-energy Monte Carlo react...
Die Kernreaktortechnologie ist ein ausgereiftes Feld mit mehreren Jahrzehnten Evolution und wichtige...
An integrated multi-physics coupling system has been developed for fusion reactor systems analyses. ...
R&D in the nuclear reactor physics demands state-of-the-art numerical tools that are able to cha...
Because of the accuracy and ease of implementation, the Monte Carlo methodology is widely used in th...
Monte Carlo methods have been used as reference reactor physics calculation tools worldwide. The adv...
Monte Carlo neutron transport codes are widely used in various reactor physics applications, traditi...
In coupled calculations with Monte Carlo neutronics and thermal hydraulics the Monte Carlo code is u...
In this work we describe a new method for parallelizing the source iterations in a Monte Carlo criti...
This dissertation develops methods to make time-dependent Monte Carlo transport calculations for rea...
The ability to accurately predict local pin powers in nuclear reactors is necessary to understand th...
This thesis investigates the feasibility of Monte Carlo (MC) neutronic calculations that combine mul...