ETH Polymer Physics seminar


2011-09-21
10:15 at HCI J 574

Direct Numerical Simulation of Turbulent Drag Reduction by Rigid Fiber Additives

Amin Moosaie

Technische Universität München

A two-way coupled simulation technique for a dilute suspension of rigid fibers in turbulent flows is developed. It is based on an Eulerian direct numerical simulation of the incompressible Navier-Stokes equations and a Lagrangian direct Monte-Carlo simulation of the fiber conformation. The developed simulation tool is employed to study the turbulent drag reduction by rigid fibers in a channel flow. In particular, the modification in turbulence intensities due to the action of fibers is studied using the pressure-strain correlation. It turns out that the reduction in pressure fluctuations (partly) and the reduction in strain fluctuations (mainly) are responsible for the reduction in the pressure-strain correlation


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