Add to ORKGThe increasing interest in high fidelity modeling of power and test reactors drives the development of new tools for multi-physics modeling as well as the coupling capabilities of the current, well established, codes. The simultaneous modeling of fuel performance and core neutronics enables solving the coupled problem between fission power, fuel temperature and mechanical behavior of fuel elements at different parts of the system. To make such considerations easier, an universal fuel performance code interface has been implemented in the Monte Carlo reactor physics code Serpent 2. The interface allows to take in account the temperature and strain distributions, calculated by fuel performance codes, in the neutron transport simulations. Info...
In coupled calculations with Monte Carlo neutronics and thermal hydraulics the Monte Carlo code is u...
A new method of Serpent–OpenFOAM coupling is developed as a multi-physics model for Advanced Lead Fa...
The Advanced Multi-Physics (AMP) Nuclear Fuel Performance code (AMPFuel) is focused on predicting th...
This paper describes the recent developments in the multi-physics capabilities of the Serpent Monte ...
This paper describes the built-in calculation routines in the reactor physics code Serpent 2 that pr...
Released in 2009, the Serpent Monte Carlo code has established itself as a highly efficient and powe...
The accurate modeling of nuclear reactors is essential to the safe and economic operation of current...
This paper describes the unique way of simultaneously solving the power and temperature distribution...
The main goal of this work was to couple the Monte Carlo neutronics code Serpent~2 with a CFD solver...
Analyses of radiation fields resulting from a deuterium-tritium (DT) plasma in fusion devices is a c...
Analyses of radiation fields resulting from a deuterium-tritium (DT) plasma in fusion devices is a c...
In coupled calculations with Monte Carlo neutronics and thermal hydraulics the Monte Carlo code is u...
This paper presents a dynamic neutron transport mode, currently being implemented in the Serpent 2 M...
The use of a new Monte Carlo Serpent code for the calculation of water-cooled reactors is present...
Conventionally, fuel performance calculations and reactor physics have been strictly separated from ...
In coupled calculations with Monte Carlo neutronics and thermal hydraulics the Monte Carlo code is u...
A new method of Serpent–OpenFOAM coupling is developed as a multi-physics model for Advanced Lead Fa...
The Advanced Multi-Physics (AMP) Nuclear Fuel Performance code (AMPFuel) is focused on predicting th...
This paper describes the recent developments in the multi-physics capabilities of the Serpent Monte ...
This paper describes the built-in calculation routines in the reactor physics code Serpent 2 that pr...
Released in 2009, the Serpent Monte Carlo code has established itself as a highly efficient and powe...
The accurate modeling of nuclear reactors is essential to the safe and economic operation of current...
This paper describes the unique way of simultaneously solving the power and temperature distribution...
The main goal of this work was to couple the Monte Carlo neutronics code Serpent~2 with a CFD solver...
Analyses of radiation fields resulting from a deuterium-tritium (DT) plasma in fusion devices is a c...
Analyses of radiation fields resulting from a deuterium-tritium (DT) plasma in fusion devices is a c...
In coupled calculations with Monte Carlo neutronics and thermal hydraulics the Monte Carlo code is u...
This paper presents a dynamic neutron transport mode, currently being implemented in the Serpent 2 M...
The use of a new Monte Carlo Serpent code for the calculation of water-cooled reactors is present...
Conventionally, fuel performance calculations and reactor physics have been strictly separated from ...
In coupled calculations with Monte Carlo neutronics and thermal hydraulics the Monte Carlo code is u...
A new method of Serpent–OpenFOAM coupling is developed as a multi-physics model for Advanced Lead Fa...
The Advanced Multi-Physics (AMP) Nuclear Fuel Performance code (AMPFuel) is focused on predicting th...