A parallel pseudospectral code for the direct numerical simulation (DNS) of isotropic turbulence has been developed. The code has been extensively benchmarked using established results from literature. The code has been used to conduct a series of runs for freely-decaying turbulence. We explore the use of power-law decay of the total energy to determine an evolved time and compare with the use of dynamic quantities such as the peak dissipation rate, maximum transport power and velocity derivative skewness. Stationary turbulence has also been investigated, where we ensure that the energy input rate remains constant for all runs. We present results for Reynolds numbers up to R{\lambda} = 335 on a 1024^3 lattice. An exploitation of the pseudos...
The effect of finite Reynolds numbers and/or internal intermittency on the total kinetic energy and ...
The theory of isotropic turbulence is investigated. In particular it is established that, for self-s...
International audienceWe present a statistical analysis of the behavior of the kinetic energy spectr...
A parallel pseudospectral code for the direct numerical simulation (DNS) of isotropic turbulence has...
The principles of self-similar isotropic turbulence are applied to the analysis of grid-decay. In pa...
The first part of this thesis examines and compares the separate closure formalisms of Wyld and Mart...
An experimental investigation of turbulence kinetic energy in the nearly homogeneous and isotropic r...
Isotropic turbulence is typically studied numerically through direct numerical simulations (DNS). Th...
We present data from direct numerical simulations of homogeneous isotropic decaying turbulence showi...
Capabilities for turbulence calculations of the Lagrangian averaged Navier-Stokes (LANS-α) equations...
International audienceThe emergence of anomalous fast decay regimes in homogeneous isotropic turbule...
The energy spectrum in the inertial and dissipation ranges in two-dimensional steady turbulence is e...
From direct numerical simulation (DNS) of turbulence decaying from specified initial conditions for ...
Abstract. Homogeneous isotropic turbulence subject to linearly increasing forcing is investigated as...
The defining characteristic of turbulent flows is their ability to dissipate energy, even in the lim...
The effect of finite Reynolds numbers and/or internal intermittency on the total kinetic energy and ...
The theory of isotropic turbulence is investigated. In particular it is established that, for self-s...
International audienceWe present a statistical analysis of the behavior of the kinetic energy spectr...
A parallel pseudospectral code for the direct numerical simulation (DNS) of isotropic turbulence has...
The principles of self-similar isotropic turbulence are applied to the analysis of grid-decay. In pa...
The first part of this thesis examines and compares the separate closure formalisms of Wyld and Mart...
An experimental investigation of turbulence kinetic energy in the nearly homogeneous and isotropic r...
Isotropic turbulence is typically studied numerically through direct numerical simulations (DNS). Th...
We present data from direct numerical simulations of homogeneous isotropic decaying turbulence showi...
Capabilities for turbulence calculations of the Lagrangian averaged Navier-Stokes (LANS-α) equations...
International audienceThe emergence of anomalous fast decay regimes in homogeneous isotropic turbule...
The energy spectrum in the inertial and dissipation ranges in two-dimensional steady turbulence is e...
From direct numerical simulation (DNS) of turbulence decaying from specified initial conditions for ...
Abstract. Homogeneous isotropic turbulence subject to linearly increasing forcing is investigated as...
The defining characteristic of turbulent flows is their ability to dissipate energy, even in the lim...
The effect of finite Reynolds numbers and/or internal intermittency on the total kinetic energy and ...
The theory of isotropic turbulence is investigated. In particular it is established that, for self-s...
International audienceWe present a statistical analysis of the behavior of the kinetic energy spectr...