Structure of a swirling turbulent mixing layer
Abstract
A single-stream swirling turbulent mixing layer was produced in which the angular momentum instability acts over most of the layer for most of its development length. The instability is associated with a large increase in the level of the conventional Reynolds stresses over those in an unswirled mixing layer. This paper presents measurements of the three-dimensionality of the mean flow at one axial location well downstream of the origin. The output of a fixed hot-wire probe was ensemble-averaged to produce an approximation to the mean flow field that would be seen by a rotating observer. The main goals of this study were to establish the presence or absence of Taylor-Goertler vortices found in unstable laminar boundary layers. The variations in the mean velocities and Reynolds stresses are generally consistent with a bodily 'wrinkling' of the mixing layer, without a significant variation in the layer thickness. The wrinkling is most probably a result of circumferential variations in the initial boundary layer, which in turn originate at the swirl generator.
- Publication:
-
Experimental Thermal Fluid Science
- Pub Date:
- March 1992
- Bibcode:
- 1992ExTFS...5..196W
- Keywords:
-
- Flow Velocity;
- Mixing Layers (Fluids);
- Reynolds Stress;
- Swirling;
- Turbulent Mixing;
- Angular Momentum;
- Flow Distribution;
- Phase Locked Systems;
- Turbulence Meters;
- Velocity Distribution;
- Fluid Mechanics and Heat Transfer