Two types of small‐aspect‐ratio slot jets were investigated. An orifice slot jet with a 3:1 aspect ratio was shown to have features similar to an elliptic jet with a well‐designed contraction. A larger spreading rate and enhanced turbulent mixing, relative to a circular jet, can be obtained using this orifice nozzle, which is advantageous for many practical applications. By adding a conical contraction to the slot jet (tapered slot jet) the characteristics were totally altered. The axes switching, typical to an elliptic jet, did not occur and the spreading rate at the major axis plane was larger than at the minor axis plane. The turbulence amplification in the initial core region was higher than both in the circular and elliptic jets. The transition from the conical contraction of the nozzle to the slot shape of the outlet section produced three‐dimensional vortical structures. These structures interacted with the asymmetric vortices shed from this noncircular configuration to enhance the small scale turb...
[1]
Gunter Hermann,et al.
On the inviscid instability of a circular jet with external flow
,
1982,
Journal of Fluid Mechanics.
[2]
Kenneth J. Wilson,et al.
Enhancement of mixing in reacting fuel-rich plumes issued from elliptical nozzles
,
1987
.
[3]
Chih-Ming Ho,et al.
Vortex induction and mass entrainment in a small-aspect-ratio elliptic jet
,
1987,
Journal of Fluid Mechanics.
[4]
Chih-Ming Ho,et al.
Visualization of a forced elliptic jet
,
1986
.
[5]
A. Michalke.
The instability of free shear layers
,
1972
.
[6]
V. Yang,et al.
A new method for stability analysis of a free jet with arbitrary cross section
,
1986
.
[7]
E. Gutmark,et al.
Reduction of flow coherence in forced, subsonic jets
,
1985
.
[8]
A. Roshko,et al.
On density effects and large structure in turbulent mixing layers
,
1974,
Journal of Fluid Mechanics.