Accurate simulation of turbulence remains one of the most challenging problems in nuclear reactor analysis and design. Due to limitations in computing resources, Reynolds averaged Navier Stokes models (RANS) continue to play an important role in reactor simulations. The Consortium for advanced simulations of light water reactors (CASL) is a Department of Energy technology hub that is investing in research and developmentof a state-of-the-art computational fluid dynamics capabilityto meet the challenges of turbulent simulation of nuclear reactors. In this presentation, we assess several RANS eddy viscosity models appropriate for single-phase incompressible turbulent flows. Specifically, we compare the single equation Splalart-Allmaras to sev...
A detached eddy simulation (DES), a large-eddy simulation (LES), and a k-"-based Reynolds averaged N...
International audienceLiquid fuel nuclear reactors offer innovative possibilities in terms of nuclea...
The paper discusses various levels of numerical modelling of turbulent flow that are relevant to ele...
The accuracy of computational fluid dynamics (CFD) predictions plays a fundamental role in supportin...
Complex industrial applications still handle turbulence modelling using Reynolds Averaged Navier Sto...
Navier-Stokes equations) turbulence models provide adequately accurate solutions for many engineerin...
In this study, a detailed analysis of the turbulent regime within the core of the Pavia TRIGA Mark I...
Over the past 50 years, an industry-wide shift within the nuclear community has led to increased uti...
Thesis: S.M., Massachusetts Institute of Technology, Department of Nuclear Science and Engineering, ...
Abstract: Low Prandtl number fluids, such as heavy liquid metals, may be used as coolant for Generat...
Advances in turbulence modeling are needed in order to calculate high Reynolds number flows near the...
Codes aimed at simulating thermal hydraulics phenomena in current and next generation nuclear reacto...
AbstractThe difficulties associated with the use of the standard LES (Large Eddy Simulation) models,...
The basic problem of operating a boiling water nuclear reactor (BWR) is that of maximizing the power...
A detached eddy simulation (DES), a large-eddy simulation (LES), and a k-"-based Reynolds averaged N...
International audienceLiquid fuel nuclear reactors offer innovative possibilities in terms of nuclea...
The paper discusses various levels of numerical modelling of turbulent flow that are relevant to ele...
The accuracy of computational fluid dynamics (CFD) predictions plays a fundamental role in supportin...
Complex industrial applications still handle turbulence modelling using Reynolds Averaged Navier Sto...
Navier-Stokes equations) turbulence models provide adequately accurate solutions for many engineerin...
In this study, a detailed analysis of the turbulent regime within the core of the Pavia TRIGA Mark I...
Over the past 50 years, an industry-wide shift within the nuclear community has led to increased uti...
Thesis: S.M., Massachusetts Institute of Technology, Department of Nuclear Science and Engineering, ...
Abstract: Low Prandtl number fluids, such as heavy liquid metals, may be used as coolant for Generat...
Advances in turbulence modeling are needed in order to calculate high Reynolds number flows near the...
Codes aimed at simulating thermal hydraulics phenomena in current and next generation nuclear reacto...
AbstractThe difficulties associated with the use of the standard LES (Large Eddy Simulation) models,...
The basic problem of operating a boiling water nuclear reactor (BWR) is that of maximizing the power...
A detached eddy simulation (DES), a large-eddy simulation (LES), and a k-"-based Reynolds averaged N...
International audienceLiquid fuel nuclear reactors offer innovative possibilities in terms of nuclea...
The paper discusses various levels of numerical modelling of turbulent flow that are relevant to ele...