Dynamics of large-scale eddies in turbulent flows

In turbulent flow, the normal procedure has been to seek means u of the fluid velocity u rather than the velocity itself. If these means are defined by local spacial averaging with an averaging radius of ␦ the approach is known as large eddy Ž . simulation, and u denotes the eddies of size 0 ␦ and l

The present study investigates the effect of taking into account the time dependency of the fine (subgrid) scales in a residual-based variational multiscale approach for large eddy simulation. The residual-based variational multiscale method with time-dependent (dynamic) subgrid scales is presented,

An LES (large eddy simulation) study was conducted using one of standard numerical models for a porous medium, namely, a flow through a periodic array of square cylinders. The LES results were processed to extract macroscopic results such as the macroscopic turbulent kinetic energy and the macroscop

Direct numerical simulation of a hydrogen/air turbulent premixed flame propagating in three-dimensional homogeneous isotropic turbulence was conducted to investigate fine-scale structure of turbulent premixed flames. A detailed kinetic mechanism including 12 reactive species and 27 elementary reacti