The FRED code is an in-house tool developed at the Paul Scherrer Institut for the so-called 1.5-D nuclear fuel performance analysis. In order to extend its field of application, this code has been re-implemented as a class of the OpenFOAM numerical library. A first objective of this re-implementation is to provide this tool with the parallel scalability necessary for full core analyses. In addition, the use of OpenFOAM as base library allows for a straightforward interface with the standard Open FOAM CFD solvers, as well as with the several OpenFOAM-based applications developed by the nuclear engineering community. In this paper, the newly developed FRED-based Open FOAM class has been integrated in the GeN-Foam multi-physics code mainly dev...
The analysis of nuclear reactors for performance and safety assessment benefits from the use of comp...
Thesis (M.Ing. (Nuclear Engineering))--North-West University, Potchefstroom Campus, 2008.Traditional...
The main goal of this work was to couple the Monte Carlo neutronics code Serpent~2 with a CFD solver...
The FRED code is an in-house tool developed at the Paul Scherrer Institut for the so-called 1.5-D nu...
International audienceThe FAST group at the Paul Scherrer Institut has been developing a code system...
GeN-FOAM is a multi-physics solver based on the OpenFOAM library developed at PSI/EPFL, Switzerland ...
International audienceThe Laboratory for Reactor Physics and Systems Behaviour at the PSI and the EP...
The OpenFOAM Fuel BEhavior Analysis Tool, or OFFBEAT, is a multi-dimensional fuel performance code u...
The current work presents a simplified benchmark for a pool-type Sodium Fast Reactor based on a 2D (...
This paper presents the GeN-transFoam solver, which is a coupled code between the GeN-Foam multi-phy...
In the last two decades, the use of OpenFOAM as a multi-physics library for nuclear applications has...
In the last two decades, the use of OpenFOAM as a multi-physics library for nuclear applications has...
Fuel performance codes are an essential tool for ensuring the safe and economic opera-tion of nuclea...
The aim of this thesis is to develop and implement a code for solving the coupled multiphysics of PW...
The OpenFOAM CFD toolbox was released as OpenSource December 10, 2004, and since then the number of ...
The analysis of nuclear reactors for performance and safety assessment benefits from the use of comp...
Thesis (M.Ing. (Nuclear Engineering))--North-West University, Potchefstroom Campus, 2008.Traditional...
The main goal of this work was to couple the Monte Carlo neutronics code Serpent~2 with a CFD solver...
The FRED code is an in-house tool developed at the Paul Scherrer Institut for the so-called 1.5-D nu...
International audienceThe FAST group at the Paul Scherrer Institut has been developing a code system...
GeN-FOAM is a multi-physics solver based on the OpenFOAM library developed at PSI/EPFL, Switzerland ...
International audienceThe Laboratory for Reactor Physics and Systems Behaviour at the PSI and the EP...
The OpenFOAM Fuel BEhavior Analysis Tool, or OFFBEAT, is a multi-dimensional fuel performance code u...
The current work presents a simplified benchmark for a pool-type Sodium Fast Reactor based on a 2D (...
This paper presents the GeN-transFoam solver, which is a coupled code between the GeN-Foam multi-phy...
In the last two decades, the use of OpenFOAM as a multi-physics library for nuclear applications has...
In the last two decades, the use of OpenFOAM as a multi-physics library for nuclear applications has...
Fuel performance codes are an essential tool for ensuring the safe and economic opera-tion of nuclea...
The aim of this thesis is to develop and implement a code for solving the coupled multiphysics of PW...
The OpenFOAM CFD toolbox was released as OpenSource December 10, 2004, and since then the number of ...
The analysis of nuclear reactors for performance and safety assessment benefits from the use of comp...
Thesis (M.Ing. (Nuclear Engineering))--North-West University, Potchefstroom Campus, 2008.Traditional...
The main goal of this work was to couple the Monte Carlo neutronics code Serpent~2 with a CFD solver...