Hostname: page-component-586b7cd67f-2plfb Total loading time: 0 Render date: 2024-11-29T09:31:00.718Z Has data issue: false hasContentIssue false

Turbulent mixing in a free jet issuing from a low aspect ratio contoured rectangular nozzle

Published online by Cambridge University Press:  04 July 2016

W. R. Quinn*
Affiliation:
Department of EngineeringSt Francis Xavier UniversityNova Scotia, Canada

Abstract

The flow field of a turbulent free jet issuing from a contoured rectangular nozzle of aspect ratio 2 has been studied experimentally, using hot-wire anemometry. The study was undertaken to gain some understanding of the mixing process within the jet. Results of the measured and derived mean flow and turbulence quantities are presented. The three components of the mean velocity vector, the three Reynolds normal stresses, the two Reynolds primary shear stresses, and the flatness factor of the streamwise fluctuating velocity were measured. Mass entrainment, turbulence kinetic energy, and the intermittency factor were derived from the mean streamwise velocity data, the Reynolds normal stress data, and the flatness factor data, respectively. The derived results and the Reynolds primary shear stress data indicate enhanced near-field mixing of the present rectangular jet compared to a round turbulent free jet. The mean streamwise velocity field changes from a rectangular to an oval and then to an approximately circular shape at about twenty equivalent nozzle diameters downstream of the nozzle exit plane.

Type
Research Article
Copyright
Copyright © Royal Aeronautical Society 1995 

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

1. Quinn, W.R. Turbulent free jet flows issuing from sharp-edged rectangular slots: the influence of slot aspect ratio, Experimental Thermal Fluid Science, 1992, 5, (2), pp 203215.Google Scholar
2. Quinn, W.R. Development of a large-aspect-ratio rectangular turbulent free jet, AIAA J, 1994, 32, (3), pp 547554.Google Scholar
3. Marsters, G.F. The effects of upstream nozzle shaping on incom pressible turbulent flows from rectangular nozzles, Transactions of the Canadian Society for Mechanical Engineering, 1979, 5, (4), pp 197203.Google Scholar
4. Krothapalli, A., Baganoff, D. and Karamcheti, K. On the mixing of a rectangular jet, J Fluid Mech, 1981, 107, pp 201220.Google Scholar
5. Tsuchiya, Y., Horikoshi, C. and Sato, T. On the spread of rectangular jets, Experiments in Fluids, 1986, 4, (4), pp 197204.Google Scholar
6. Morrison, G.L. and Swan, D.H. Three-dimensional flow field measurements of a 4:1 aspect ratio subsonic jet, AIAA Paper No 89-1092.Google Scholar
7. Bradshaw, P. An Introduction to Turbulence and Its Measurement, Pergamon, Oxford, England, 1975.Google Scholar
8. Bearman, P.W. Corrections for the effect of ambient temperature drift on hot-wire measurements in incompressible flow, DISA Infor mation, 1971,11, (11), pp 2530.Google Scholar
9. Bell, J.H. and Mehta, R.D. Three-dimensional structure of plane mixing layers, JIAA Report TR-90, Dept of Aeronautics and Astro nautics, Stanford University, 1989.Google Scholar
10. Panchapakesan, N.R., and Lumley, J.L. Turbulence measurements in axisymmetric jets of air and helium. Part 1: Air Jet, J Fluid Mech, 1993, 246, pp 197223.Google Scholar
11. Bradshaw, P. Turbulent secondary flows, Annual Review of Fluid Mechanics, 1987, 19, pp 5374.Google Scholar
12. Abramovich, G.N. On the deformation of the rectangular turbulent jet cross-section, Int J Heat Mass Trans, 1982, 25, (18), pp 18851894.Google Scholar
13. Ho, C.-M. and Gutmark, E. Vortex induction and mass entrainment in a small-aspect-ratio elliptic jet, J Fluid Mech, 1987, 179, pp 383405.Google Scholar
14. Hill, B.J. Measurement of local entrainment rate in the initial region of axisymmetric turbulent air jets, J Fluid Mech, 1971, 51, pp 773779.Google Scholar
15. Boguslawski, L. and Popiel, C.O. Flow structure of the free round turbulent jet in the initial region, J Fluid Mech, 1979, 90, Pt III, pp 531539.Google Scholar