Dynamical Contributions to the Skin Friction in Polymer Drag Reduced Wall-Bounded Turbulence

Christopher White; Vijay Somandepalli; Yves Dubief; Godfrey Mungal

Dynamical Contributions to the Skin Friction in Polymer Drag Reduced Wall-Bounded Turbulence

ORAL

Abstract

The friction drag in polymer drag reduced turbulent boundary layer flow is decomposed into four dynamical contributions. It is found that drag reduction is achieved by either, or both, an attenuation of the Reynolds stress and a reduction in the total stress gradient near the wall. Particle image velocimetry (PIV) measurements made in a turbulent developing boundary layer flow, with and without polymer drag reduction, demonstrate that polymers produce both these effects.

Nov. 19, 2006, 8:00 AM – Nov. 19, 2006, 8:13 AM

Authors

Christopher White
- Mechanical Engineering Department, University of New Hampshire
Vijay Somandepalli
- Mechanical Engineering Department, Stanford University
Yves Dubief
- University of Vermont
- Mechanical Engineering Department, University of Vermont
Godfrey Mungal
- Mechanical Engineering Department, Stanford University