The strong increase in computational power observed during the last few years has allowed to use Large Eddy Simulation (LES) for industrial configurations. Nevertheless, the time-to-solution is still too large for a daily use in the design phases. The objective of this work is to develop a new time integration method to reduce the time-to-solution of LES of incompressible flows by allowing the use of larger time step. The projection method, probably the most commonly used method in the context of LES of incompressible flow, is generally applied using explicit time advancement which constrains the time-step value for stability reasons (CFL and Fourier constraints). The time step can then be small with respect to the physical characteristic t...
A recently developed fourth-order accurate implicit residual smoothing scheme (IRS4) is investigated...
Large eddy simulations using hybrid unstructured meshes are performed for different problems includi...
Analysis and optimization of the hybrid upwind-central numerical methods for modern versions of larg...
International audienceWith the constant increase of computational power for the past years, Computat...
In practical flow configurations, a large disparities of geometrical length scales are often encount...
The calculation of the dynamic loads on space launchers is important for the design and optimisation...
Large eddy simulation (LES) becomes more and more important for the simulation of practical turbulen...
Large-Eddy Simulation (LES) becomes a more and more demanded tool to improve the design of aero-engi...
Restrictions on the maximum allowable time step of explicit time integration methods for direct and ...
International audienceRestrictions on the maximum allowable time step of explicit time integration m...
La simulation instationnaire d'écoulements turbulents (LES : Large Eddy Simulation, par exemple) res...
Unsteady simulations of turbulent flows (LES : Large Eddy Simulation, for instance) still present an...
This work developed tools to make Large Eddy Simulation (LES) more easily applicable to engineering ...
Adaptive time stepping can significantly enhance the accuracy and the efficiency of computational me...
Adaptive time stepping can significantly enhance the accuracy and the efficiency of computational me...
A recently developed fourth-order accurate implicit residual smoothing scheme (IRS4) is investigated...
Large eddy simulations using hybrid unstructured meshes are performed for different problems includi...
Analysis and optimization of the hybrid upwind-central numerical methods for modern versions of larg...
International audienceWith the constant increase of computational power for the past years, Computat...
In practical flow configurations, a large disparities of geometrical length scales are often encount...
The calculation of the dynamic loads on space launchers is important for the design and optimisation...
Large eddy simulation (LES) becomes more and more important for the simulation of practical turbulen...
Large-Eddy Simulation (LES) becomes a more and more demanded tool to improve the design of aero-engi...
Restrictions on the maximum allowable time step of explicit time integration methods for direct and ...
International audienceRestrictions on the maximum allowable time step of explicit time integration m...
La simulation instationnaire d'écoulements turbulents (LES : Large Eddy Simulation, par exemple) res...
Unsteady simulations of turbulent flows (LES : Large Eddy Simulation, for instance) still present an...
This work developed tools to make Large Eddy Simulation (LES) more easily applicable to engineering ...
Adaptive time stepping can significantly enhance the accuracy and the efficiency of computational me...
Adaptive time stepping can significantly enhance the accuracy and the efficiency of computational me...
A recently developed fourth-order accurate implicit residual smoothing scheme (IRS4) is investigated...
Large eddy simulations using hybrid unstructured meshes are performed for different problems includi...
Analysis and optimization of the hybrid upwind-central numerical methods for modern versions of larg...