A new method to perform direct numerical simulations of wall-bounded flows has been developed and implemented. The method uses high-order compact finite differences in wall-normal (for channel flow) or radial direction (for pipe flow) on a collocated grid, which gives high-accuracy results without the effectfof filtering caused by frequent interpolation as required on a staggered grid. The use of compact finite differences means that extreme clustering near the wall leading to small time steps in high-Reynolds number simulations is avoided. The influence matrix method is used to ensure a completely divergence-freesolution and all systems of equations are solved in banded form, which ensures an effcient solution procedure with low requiremen...
This thesis is devoted to the numerical simulation of turbulent wall-bounded flows. Their accurate p...
This paper describes a global methodology that aims at generating realistic near-wall boundary condi...
This thesis presents two new numerical wall models for computing Reynolds-Averaged-Navier-Stokes (RA...
Research is presented on the development and testing of a new procedure for the time dependent, spat...
Nearly all moving objects on Earth pass through fluids and many of them move at high speed. This mak...
In the simulation of turbulent flows, resolving flow motions near a solid surface requires a high re...
Developments in three dimensional, time dependent numerical simulation of turbulent flows bounded by...
The universality and mathematical physical structure of wall-bounded turbulent flows is a topic of d...
International audienceSimulation of turbulent wall-bounded flows requires a high spatial resolution ...
In the present work, a highly efficient incompressible flow solver with a semi-implicit time advance...
This PhD thesis presents a computational study of turbulent boundary layers and their interaction w...
We present a general strategy to unify wall-resolved and wall-modeled large-eddy simulation (LES) ap...
This paper outlines a velocity–vorticity based numerical simulation method for modelling perturbatio...
We present a numerical scheme geared for high performance computation of wall-bounded turbulentflows...
Flows over hydraulically smooth walls are predominant in turbulence studies whereas real surfaces in...
This thesis is devoted to the numerical simulation of turbulent wall-bounded flows. Their accurate p...
This paper describes a global methodology that aims at generating realistic near-wall boundary condi...
This thesis presents two new numerical wall models for computing Reynolds-Averaged-Navier-Stokes (RA...
Research is presented on the development and testing of a new procedure for the time dependent, spat...
Nearly all moving objects on Earth pass through fluids and many of them move at high speed. This mak...
In the simulation of turbulent flows, resolving flow motions near a solid surface requires a high re...
Developments in three dimensional, time dependent numerical simulation of turbulent flows bounded by...
The universality and mathematical physical structure of wall-bounded turbulent flows is a topic of d...
International audienceSimulation of turbulent wall-bounded flows requires a high spatial resolution ...
In the present work, a highly efficient incompressible flow solver with a semi-implicit time advance...
This PhD thesis presents a computational study of turbulent boundary layers and their interaction w...
We present a general strategy to unify wall-resolved and wall-modeled large-eddy simulation (LES) ap...
This paper outlines a velocity–vorticity based numerical simulation method for modelling perturbatio...
We present a numerical scheme geared for high performance computation of wall-bounded turbulentflows...
Flows over hydraulically smooth walls are predominant in turbulence studies whereas real surfaces in...
This thesis is devoted to the numerical simulation of turbulent wall-bounded flows. Their accurate p...
This paper describes a global methodology that aims at generating realistic near-wall boundary condi...
This thesis presents two new numerical wall models for computing Reynolds-Averaged-Navier-Stokes (RA...