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Sidejet Strength and Mixing in Self-Excited Jets. [Abstract ONLY]

Published

Author(s)

A W. Johnson, William M. Pitts

Abstract

Absolutely unstable jet flows are known to produce vigorous and intermittent lateral ejections of fluid, or 'sidejets'. Sidejet generation has been attributed to the near-field interaction of axisymmetric vorticies, streamwise vorticies, and lobes formed on the axisymmetric ring vorticies by the Widnall instability. Here we attempt to vary the strength of sidejets by varying the intensity of the primary oscillating mode associated with axisymmetric vorticies of self-excited absolutely unstable round helium jets. The resulting effects on the scalar mixing field have been documented. The intensity of the oscillating mode was manipulated by varying the velocity profile over a wide range of D/0. Here, D is the nozzle diameter and 0 is the momentum thickness of the velocity profile at the nozzle exit. Profiles of jet concentration were measured using Rayleigh light scattering (RLS). Simultaneous concentration and velocity measurements were made using hotwire probes and RLS in the near field. Strengthening the oscillating mode increased the radial extent and strength of the corresponding sidejets. Downstream spreading and the virtual origin of the jet were also dependent on sidejet strength. Qualitative results on the temporal and spatial properties of sidejets in these flows will also be presented.
Citation
Bulletin of the American Physical Society
Volume
28
Issue
No. 12

Keywords

jet induced flow, mixing, rayleigh light scattering

Citation

Johnson, A. and Pitts, W. (1993), Sidejet Strength and Mixing in Self-Excited Jets. [Abstract ONLY], Bulletin of the American Physical Society, [online], https://tsapps.nist.gov/publication/get_pdf.cfm?pub_id=911787 (Accessed March 29, 2024)
Created November 20, 1993, Updated October 12, 2021