We consider a discrete one-dimensional model that was investigated numerically by Daumont and Peyrard [Chaos 13, 624 (2003)] as a model for turbulence in fluids, i.e., for the energy transfer from large to small scales. They found numerically that there exist two different regimes for the energy spectrum at high energies and low energies, respectively, and gave an analytical explanation for the high-energy spectrum. An analytical explanation is given here for the low-energy spectrum, which corresponds to the laminar regime
We analyse the inter-scale transfer of energy for two types of plane Poiseuille flow: the P4U exact ...
We introduce a model for the turbulent energy cascade aimed at studying the effect of dynamical scal...
A temporal study of energy transfer across length scales is performed in 3D numerical simulations of...
The effect of finite Reynolds numbers and/or internal intermittency on the total kinetic energy and ...
The use of numerical models for the Navier-Stokes equations of fluid dynamics is an estab-lished pra...
Turbulence is a ubiquitous state for many flows in nature and engineering. As the flow velocity is i...
It is theoretically established that energy transfer in nonhomogeneous turbulence occurs in two dist...
We present a heuristic model for the energy spectrum of the one-dimensional phase turbulence in the ...
Energy transfer from large to small eddies at three stations in turbulence behind a square mesh is d...
We give a Von Karman-type model for the inertial transfer to develop a generalized spectral law for ...
Energy transfer plays an essential role in many natural and engineering processes which include diff...
Real turbulent flows are difficult to classify as either spatially homogeneous or isotropic. Nonethe...
The paper addresses a set of new equations concerning the scale by scale balance of turbulent fluct...
The nonequilibrium dissipation behaviour discovered for decaying fractal square grid-generated turb...
The paper addresses a set of new equations concerning the scale-by-scale balance of turbulent fluctu...
We analyse the inter-scale transfer of energy for two types of plane Poiseuille flow: the P4U exact ...
We introduce a model for the turbulent energy cascade aimed at studying the effect of dynamical scal...
A temporal study of energy transfer across length scales is performed in 3D numerical simulations of...
The effect of finite Reynolds numbers and/or internal intermittency on the total kinetic energy and ...
The use of numerical models for the Navier-Stokes equations of fluid dynamics is an estab-lished pra...
Turbulence is a ubiquitous state for many flows in nature and engineering. As the flow velocity is i...
It is theoretically established that energy transfer in nonhomogeneous turbulence occurs in two dist...
We present a heuristic model for the energy spectrum of the one-dimensional phase turbulence in the ...
Energy transfer from large to small eddies at three stations in turbulence behind a square mesh is d...
We give a Von Karman-type model for the inertial transfer to develop a generalized spectral law for ...
Energy transfer plays an essential role in many natural and engineering processes which include diff...
Real turbulent flows are difficult to classify as either spatially homogeneous or isotropic. Nonethe...
The paper addresses a set of new equations concerning the scale by scale balance of turbulent fluct...
The nonequilibrium dissipation behaviour discovered for decaying fractal square grid-generated turb...
The paper addresses a set of new equations concerning the scale-by-scale balance of turbulent fluctu...
We analyse the inter-scale transfer of energy for two types of plane Poiseuille flow: the P4U exact ...
We introduce a model for the turbulent energy cascade aimed at studying the effect of dynamical scal...
A temporal study of energy transfer across length scales is performed in 3D numerical simulations of...