Dilution Jet Mixing Program, phase 1
Abstract
The effect of jet to mainstream density ratio, flow area convergence as encounted in transition sections, and nonuniform mainstream profile upstream of dilution orifices on the mixing of a row of jets with a confined cross flow was quantified. It is found that: (1) jet spreading rate in transverse direction is increased with increasing J, H/D and with decreasing S/D; (2) the density ratio has only a second order effect on the jet mixing characteristics for a constant momentum ratio; (3) the temperature distributions in the jet mixing region are strongly influenced by the undisturbed mainstream profile; (4) flow area convergence enhances mixing in radial and transverse directions. An asymmetric convergent duct with flat wall injection has the same jet mixing characteristics as a symmetric convergent duct. An asymmetric convergent duct with slant wall injection has a faster jet spreading rate in the transverse direction.
- Publication:
-
NASA STI/Recon Technical Report N
- Pub Date:
- November 1982
- Bibcode:
- 1982STIN...8315590S
- Keywords:
-
- Cross Flow;
- Dilution;
- Jet Mixing Flow;
- Two Dimensional Jets;
- Flow Characteristics;
- Fluid Dynamics;
- Fluid Jets;
- Independent Variables;
- Fluid Mechanics and Heat Transfer