cited By 0International audienceIt is now well established that coherent structures exist in the majority of turbulent flows and can affect various aspects of the dynamics of these flows, such as the way energy is transferred over a range of scales as well as the departure from isotropy at the small scales. Reynolds and Hussain (J Fluid Mech 54:263–288, 1972) were first to derive one-point energy budgets for the coherent and random motions respectively. However, at least two points must be considered to define a scale and allow a description of the mechanisms involved in the energy budget at that scale. A transport equation for the second-order velocity structure function, equivalent to the Karman-Howarth (1938) equation for the two-point v...
We characterise the incompressible turbulence cascade in terms of the concurrent inter-scale and int...
For moderate Reynolds numbers, the isotropic relation between second-order and third-order moments f...
It has been noted that the scale-by-scale distribution of kinetic energy in a turbulent flow is more...
Scale-by-scale energy budget equations are written for flows where coherent structures may be promin...
International audienceIt is first established, on the basis of new X-wire measurements, that the equ...
International audienceScale-by-scale energy budget equations for coherent motion and turbulent kinet...
International audienceMost turbulent flows are characterized by coherent motion (CM), whose dynamics...
This thesis concerns the structure of turbulence and energy budget equations in the near to intermed...
Since the pioneer work of Townsend (1956), it is now well known that a coherent motion persists in m...
The transport equation for the isotropic turbulent energy dissipation rate ⋶<sub>iso</sub>along the ...
We analyse the inter-scale transfer of energy for two types of plane Poiseuille flow: the P4U exact ...
We analyse the inter-scale transfer of energy for turbulent channel flow at Reτ = 180 in a minimal f...
Turbulence is a ubiquitous state for many flows in nature and engineering. As the flow velocity is i...
In this paper, the transport equation for the turbulent kinetic energy (TKE) is tested in the far fi...
The development of models for several phenomena occurring in turbulent single and multi-phase flows ...
We characterise the incompressible turbulence cascade in terms of the concurrent inter-scale and int...
For moderate Reynolds numbers, the isotropic relation between second-order and third-order moments f...
It has been noted that the scale-by-scale distribution of kinetic energy in a turbulent flow is more...
Scale-by-scale energy budget equations are written for flows where coherent structures may be promin...
International audienceIt is first established, on the basis of new X-wire measurements, that the equ...
International audienceScale-by-scale energy budget equations for coherent motion and turbulent kinet...
International audienceMost turbulent flows are characterized by coherent motion (CM), whose dynamics...
This thesis concerns the structure of turbulence and energy budget equations in the near to intermed...
Since the pioneer work of Townsend (1956), it is now well known that a coherent motion persists in m...
The transport equation for the isotropic turbulent energy dissipation rate ⋶<sub>iso</sub>along the ...
We analyse the inter-scale transfer of energy for two types of plane Poiseuille flow: the P4U exact ...
We analyse the inter-scale transfer of energy for turbulent channel flow at Reτ = 180 in a minimal f...
Turbulence is a ubiquitous state for many flows in nature and engineering. As the flow velocity is i...
In this paper, the transport equation for the turbulent kinetic energy (TKE) is tested in the far fi...
The development of models for several phenomena occurring in turbulent single and multi-phase flows ...
We characterise the incompressible turbulence cascade in terms of the concurrent inter-scale and int...
For moderate Reynolds numbers, the isotropic relation between second-order and third-order moments f...
It has been noted that the scale-by-scale distribution of kinetic energy in a turbulent flow is more...