AbstractWe apply the phenomenology of homogeneous, isotropic turbulence to the family of approximate deconvolution models proposed by Stolz and Adams. In particular, we establish that the models themselves have an energy cascade with two asymptotically different inertial ranges. Delineation of these gives insight into the resolution requirements of using approximate deconvolution models. The approximate deconvolution model's energy balance contains both an enhanced energy dissipation and a modification to the model's kinetic energy. The modification of the model's kinetic energy induces a secondary energy cascade which accelerates scale truncation. The enhanced energy dissipation completes the scale truncation by reducing the model's micro-...
In statistically stationary conditions, the turbulent energy spectrum in a high Reynolds number flow...
The theory of isotropic turbulence is investigated. In particular it is established that, for self-s...
This thesis is a study of physical fidelity in turbulence modeling. We first consider conservation l...
Summary. This report presents the mathematical foundation of approximate deconvolution LES models to...
Turbulence appears in many processes in the nature and it is connected with many engineering, biophy...
This report presents the mathematical foundation of approximate deconvolution LES models together wi...
International audienceBoth theoretical analysis and eddy-damped quasi-normal Markovian (EDQNM) simul...
A scaling hypothesis leading to generalized extended self-similarity (GESS) for velocity structure f...
This volume presents a mathematical development of a recent approach to the modeling and simulation ...
Much recent work has been done in the study of isotropic turbulence, particularly from the point of ...
A new energy cascade principle, synchro-cascade pattern, to better understand the mechanism of turbu...
We introduce a model for the turbulent energy cascade aimed at studying the effect of dynamical scal...
To describe the small-scale intermittency of turbulence, a self-similarity is imposed on the probabi...
We characterise the incompressible turbulence cascade in terms of the concurrent inter-scale and int...
The dependence of the energy transfer process on the disparity of the interacting scales is investig...
In statistically stationary conditions, the turbulent energy spectrum in a high Reynolds number flow...
The theory of isotropic turbulence is investigated. In particular it is established that, for self-s...
This thesis is a study of physical fidelity in turbulence modeling. We first consider conservation l...
Summary. This report presents the mathematical foundation of approximate deconvolution LES models to...
Turbulence appears in many processes in the nature and it is connected with many engineering, biophy...
This report presents the mathematical foundation of approximate deconvolution LES models together wi...
International audienceBoth theoretical analysis and eddy-damped quasi-normal Markovian (EDQNM) simul...
A scaling hypothesis leading to generalized extended self-similarity (GESS) for velocity structure f...
This volume presents a mathematical development of a recent approach to the modeling and simulation ...
Much recent work has been done in the study of isotropic turbulence, particularly from the point of ...
A new energy cascade principle, synchro-cascade pattern, to better understand the mechanism of turbu...
We introduce a model for the turbulent energy cascade aimed at studying the effect of dynamical scal...
To describe the small-scale intermittency of turbulence, a self-similarity is imposed on the probabi...
We characterise the incompressible turbulence cascade in terms of the concurrent inter-scale and int...
The dependence of the energy transfer process on the disparity of the interacting scales is investig...
In statistically stationary conditions, the turbulent energy spectrum in a high Reynolds number flow...
The theory of isotropic turbulence is investigated. In particular it is established that, for self-s...
This thesis is a study of physical fidelity in turbulence modeling. We first consider conservation l...