Add to ORKGThe LEADER project goal is to improve and develop a scaled demonstrator of the LFR technology, ALFRED. The work in this thesis is focused in the ALFRED project framework and its mission is to obtain few-group cross section data for LFRs. Cross sections The neutron transport problem is crucial in nuclear engineering and nuclear reactor physics. Neutron transport theory and the diffusion theory applied to neutron reactions are briefly described, including their principles and hypothesis. The two different computational approaches to solve the neutron transport problem are summarized. The software used to obtain the data is based on a modification of the Monte Carlo method. Thus, some basic probability theory concepts are introduced. T...
The use of a new Monte Carlo Serpent code for the calculation of water-cooled reactors is present...
Lead Fast Reactor (LFR) is considered as one of the most promising future nuclear power plants in th...
The significance of Monte Carlo simulation to engineer and scientist is now broadly stated and maxim...
The LEADER project goal is to improve and develop a scaled demonstrator of the LFR technology, ALFRE...
Among the six advanced reactor systems identified by the Generation IV International Forum, the lead...
Monte Carlo neutron transport codes are widely used in various reactor physics applications, traditi...
Neutron transport calculations by Monte Carlo methods are finding increased application in nuclear r...
The accurate modeling of nuclear reactors is essential to the safe and economic operation of current...
This paper presents a new assembly-level Monte Carlo neutron transport code, specifically intended f...
The constant preparation issues are important for performing the few-group analysis for different st...
A new method of Serpent–OpenFOAM coupling is developed as a multi-physics model for Advanced Lead Fa...
The Monte Carlo method is being widely used to solve neutron transport problems in nuclear reactor c...
Discrepancies in fundamental nuclear data pose a potential source of uncertainty in neutron transpor...
The main goal of this work is to perform pin-by-pin calculations of Swiss LWR fuel assemblies with n...
The use of a new Monte Carlo Serpent code for the calculation of water-cooled reactors is present...
Lead Fast Reactor (LFR) is considered as one of the most promising future nuclear power plants in th...
The significance of Monte Carlo simulation to engineer and scientist is now broadly stated and maxim...
The LEADER project goal is to improve and develop a scaled demonstrator of the LFR technology, ALFRE...
Among the six advanced reactor systems identified by the Generation IV International Forum, the lead...
Monte Carlo neutron transport codes are widely used in various reactor physics applications, traditi...
Neutron transport calculations by Monte Carlo methods are finding increased application in nuclear r...
The accurate modeling of nuclear reactors is essential to the safe and economic operation of current...
This paper presents a new assembly-level Monte Carlo neutron transport code, specifically intended f...
The constant preparation issues are important for performing the few-group analysis for different st...
A new method of Serpent–OpenFOAM coupling is developed as a multi-physics model for Advanced Lead Fa...
The Monte Carlo method is being widely used to solve neutron transport problems in nuclear reactor c...
Discrepancies in fundamental nuclear data pose a potential source of uncertainty in neutron transpor...
The main goal of this work is to perform pin-by-pin calculations of Swiss LWR fuel assemblies with n...
The use of a new Monte Carlo Serpent code for the calculation of water-cooled reactors is present...
Lead Fast Reactor (LFR) is considered as one of the most promising future nuclear power plants in th...
The significance of Monte Carlo simulation to engineer and scientist is now broadly stated and maxim...