A viscous-inviscid interaction model of jet entrainment
Abstract
A viscous-inviscid interaction model for predicting jet entrainment effects on axisymmetric, nozzle afterbodies at subsonic speeds is presented. The model is based on a displacement thickness correction to the inviscid jet boundary that accounts for mixing-induced streamline deflections in the inviscid region. The displacement correction is shown to be related to the local mass entrainment rate and, for thin mixing layers, the model is shown to be analogous to displacement models used in conventional boundary-layer interaction theory. A method is presented for computing the entrainment rate by an overlaid mixing layer model that accounts for the nonsimilar behavior and pressure gradients occurring in the near field region. An iterative scheme for coupling the model to analyses for the external inviscid flow, the external boundary layer, and the inviscid jet exhaust is also given. Results are presented that illustrate the qualitative behavior of the entrainment interaction under various flow conditions and that demonstrate the validity of the model by comparisons with experiment.
- Publication:
-
In AGARD Computation of Viscous-Inviscid Interactions 15 p (SEE N81-26037 17-01
- Pub Date:
- February 1981
- Bibcode:
- 1981cvii.agar.....W
- Keywords:
-
- Entrainment;
- Inviscid Flow;
- Jet Exhaust;
- Numerical Flow Visualization;
- Viscous Flow;
- Afterbodies;
- Boundary Value Problems;
- Flow Distribution;
- Mixing Layers (Fluids);
- Pressure Gradients;
- Fluid Mechanics and Heat Transfer