Fluid elements deform in turbulence by stretching and folding. In this work, by projecting the material deformation tensor onto the largest stretching direction, the dynamics of folding is depicted through the evolution of the material curvature. Results from direct numerical simulation (DNS) show that the curvature growth exhibits two regimes, first a linear stage dominated by folding fluid elements through a persistent velocity Hessian which then transitions to an exponential growth driven by the stretching of already strongly bent fluid elements. This transition leads to strong curvature intermittency at later stages, which can be explained by a proposed curvature-evolution model. The link between velocity Hessian to folding provides a n...
A characteristic property of turbulent flows is the presence of a universal small-scale structure co...
We describe the localized folding of thick layers embedded in a viscoelastic framework. Higher-order...
The backreaction of dispersed rigid fibers to turbulence is analyzed by means of a state-of-the-art ...
Material elements - which are lines, surfaces, or volumes behaving as passive, non-diffusive markers...
Stretching and folding dynamics in the incompressible, stratified 3D Euler and Navier-Stokes equatio...
AbstractStretching and folding dynamics in the incompressible, stratified 3D Euler and Navier-Stokes...
Regions of high curvature of a material line as they evolve in a chaotic flow are considered. In suc...
International audienceThe transport of deformable objects by a turbulent flow is common in environme...
We report the multi-scale geometric analysis of Lagrangian structures in forced isotropic turbulence...
We study the dynamics of a flexible fiber freely moving in a three-dimensional fully developed turbu...
A multiscale model for the evolution of the velocity gradient tensor in turbulence is proposed. The ...
International audienceIn fluid turbulence, energy is transferred from one scale to another by an ene...
Cocke (1969) proved that in incompressible, isotropic turbulence the average material line (material...
Les fibres flexibles en écoulement turbulent se retrouvent dans divers contextes allant de la pollut...
Modeling the velocity gradient tensor A = del u along Lagrangian trajectories in turbulent flow requ...
A characteristic property of turbulent flows is the presence of a universal small-scale structure co...
We describe the localized folding of thick layers embedded in a viscoelastic framework. Higher-order...
The backreaction of dispersed rigid fibers to turbulence is analyzed by means of a state-of-the-art ...
Material elements - which are lines, surfaces, or volumes behaving as passive, non-diffusive markers...
Stretching and folding dynamics in the incompressible, stratified 3D Euler and Navier-Stokes equatio...
AbstractStretching and folding dynamics in the incompressible, stratified 3D Euler and Navier-Stokes...
Regions of high curvature of a material line as they evolve in a chaotic flow are considered. In suc...
International audienceThe transport of deformable objects by a turbulent flow is common in environme...
We report the multi-scale geometric analysis of Lagrangian structures in forced isotropic turbulence...
We study the dynamics of a flexible fiber freely moving in a three-dimensional fully developed turbu...
A multiscale model for the evolution of the velocity gradient tensor in turbulence is proposed. The ...
International audienceIn fluid turbulence, energy is transferred from one scale to another by an ene...
Cocke (1969) proved that in incompressible, isotropic turbulence the average material line (material...
Les fibres flexibles en écoulement turbulent se retrouvent dans divers contextes allant de la pollut...
Modeling the velocity gradient tensor A = del u along Lagrangian trajectories in turbulent flow requ...
A characteristic property of turbulent flows is the presence of a universal small-scale structure co...
We describe the localized folding of thick layers embedded in a viscoelastic framework. Higher-order...
The backreaction of dispersed rigid fibers to turbulence is analyzed by means of a state-of-the-art ...