In severe accident management, the ability to predict pressure and thermal loads resulting from hydrogen combustion is important since they may threaten containment integrity. In computational modeling, different combustion regimes have to be accounted for and state-of-the-art techniques developed for reliable analysis. In the present study, the focus is on computational fluid dynamics code validation for reactive flows in the detonation regime. The FLAME hydrogen combustion test F-19 performed at the Sandia National Laboratories has been simulated by using the gas detonation model implemented in the TONUS CFD code which is developed by CEA and IRSN (France). In this model the reactive Euler equations are solved and the reaction rate is obt...
In this study, the impact of hydrogen concentration on deflagration to detonation transition (DDT) a...
The use of hydrogen gas as a fuel to be burned or to be spent in a hydrogen fuel cell vehicle is inc...
The present study aims to test the capability of our newly developed density-based solver, Explosion...
In severe accident management, the ability to predict pressure and thermal loads resulting from hydr...
In the present study, the FLAME large-scale hydrogen combustion tests F-8 and F-22 performed at Sand...
Computational Fluid Dynamics solvers are developed for explosion modelling and hazards analysis in H...
Hydrogen deflagration poses a severe threat to the structural integrity of the reactor safety system...
A numerical approach has been developed to simulate flame acceleration and deflagration to detonatio...
The paper describes the comparison of simulations of a hydrogen explosion experiment in an environme...
Numerical simulations have been carried out for large scale hydrogen explosions in a refuelling envi...
International audienceDuring certain severe accident scenarios in a Nuclear Power Plant, hydrogen ga...
The paper describes an exercise on comparison of Computational Fluid Dynamics (CFD) models to predic...
Computational Fluid Dynamics (CFD) simulations of hydrogen dispersion and combustion in accident sce...
Large quantities of hydrogen can be generated during a severe accident in a water-cooled nuclear rea...
The comparison between experimental data and simulation results of hydrogen explosions in a vented v...
In this study, the impact of hydrogen concentration on deflagration to detonation transition (DDT) a...
The use of hydrogen gas as a fuel to be burned or to be spent in a hydrogen fuel cell vehicle is inc...
The present study aims to test the capability of our newly developed density-based solver, Explosion...
In severe accident management, the ability to predict pressure and thermal loads resulting from hydr...
In the present study, the FLAME large-scale hydrogen combustion tests F-8 and F-22 performed at Sand...
Computational Fluid Dynamics solvers are developed for explosion modelling and hazards analysis in H...
Hydrogen deflagration poses a severe threat to the structural integrity of the reactor safety system...
A numerical approach has been developed to simulate flame acceleration and deflagration to detonatio...
The paper describes the comparison of simulations of a hydrogen explosion experiment in an environme...
Numerical simulations have been carried out for large scale hydrogen explosions in a refuelling envi...
International audienceDuring certain severe accident scenarios in a Nuclear Power Plant, hydrogen ga...
The paper describes an exercise on comparison of Computational Fluid Dynamics (CFD) models to predic...
Computational Fluid Dynamics (CFD) simulations of hydrogen dispersion and combustion in accident sce...
Large quantities of hydrogen can be generated during a severe accident in a water-cooled nuclear rea...
The comparison between experimental data and simulation results of hydrogen explosions in a vented v...
In this study, the impact of hydrogen concentration on deflagration to detonation transition (DDT) a...
The use of hydrogen gas as a fuel to be burned or to be spent in a hydrogen fuel cell vehicle is inc...
The present study aims to test the capability of our newly developed density-based solver, Explosion...