Starting from an alternative decomposition of the turbulent field, a multi-dimensional statistical formalism for the description and understanding of turbulence in free-shear flows is proposed and applied to the symmetries of planar temporal jets. The theoretical framework is based on the exact equation for the second-order moment of the two-point velocity increment and allows us to trace, for the first time, the spatially evolving cascade processes at the basis of turbulence mixing and entrainment. Fascinating reverse energy cascade mechanisms are found to be responsible for the generation of long and wide structures in the interface region. Analogously to two-dimensional turbulence, the energy provided by these spatially ascending reverse...
This work analysis several large and small scale aspects of the turbulent entrainment mechanism that...
We study the self-similarity and dissipation scalings of a turbulent planar jet and the theoreticall...
Real turbulent flows are difficult to classify as either spatially homogeneous or isotropic. Nonethe...
Starting from an alternative decomposition of the turbulent field, a multi-dimensional statistical f...
A detailed analysis of the structure of turbulence in a temporal planar turbulent jet is reported. I...
This thesis concerns the structure of turbulence and energy budget equations in the near to intermed...
Turbulent flows are characterized by the non-linear cascades of energy and other inviscid invariant...
Results from direct numerical simulations of a temporally growing planar turbulent jet at a Reynolds...
In this dissertation, I present work addressing three systems which are traditionally considered to ...
The structure and dynamics of free-surface turbulence at low Froude numbers has been studied using t...
This thesis presents a newly developed theory for the formation and maintenance of eddy-driven jets ...
The dynamics of free surface turbulence at low Froude numbers has been investigated by direct numeri...
National audienceThe dimensionality of the space has remarkable effects on the dynamics of turbulent...
The development of zonal flows on a midlatitude beta-plane subject to a time-varying topographic for...
This work analysis several large and small scale aspects of the turbulent entrainment mechanism that...
We study the self-similarity and dissipation scalings of a turbulent planar jet and the theoreticall...
Real turbulent flows are difficult to classify as either spatially homogeneous or isotropic. Nonethe...
Starting from an alternative decomposition of the turbulent field, a multi-dimensional statistical f...
A detailed analysis of the structure of turbulence in a temporal planar turbulent jet is reported. I...
This thesis concerns the structure of turbulence and energy budget equations in the near to intermed...
Turbulent flows are characterized by the non-linear cascades of energy and other inviscid invariant...
Results from direct numerical simulations of a temporally growing planar turbulent jet at a Reynolds...
In this dissertation, I present work addressing three systems which are traditionally considered to ...
The structure and dynamics of free-surface turbulence at low Froude numbers has been studied using t...
This thesis presents a newly developed theory for the formation and maintenance of eddy-driven jets ...
The dynamics of free surface turbulence at low Froude numbers has been investigated by direct numeri...
National audienceThe dimensionality of the space has remarkable effects on the dynamics of turbulent...
The development of zonal flows on a midlatitude beta-plane subject to a time-varying topographic for...
This work analysis several large and small scale aspects of the turbulent entrainment mechanism that...
We study the self-similarity and dissipation scalings of a turbulent planar jet and the theoreticall...
Real turbulent flows are difficult to classify as either spatially homogeneous or isotropic. Nonethe...