High-Speed Rainbow Schlieren Visualization of an Oscillating Helium Jet Undergoing Gravitational Change

Article type: Research Article

Authors: Leptuch, P. A. | Agrawal, A. K.

Affiliations: MEP Engineering Services, WD Partners, Irving, TX 75039, USA. E-mail: pleptuch@yahoo.com | Robert F. Barfield Endowed Chair Professor, Department of Mechanical Engineering, University of Tuscaloosa, AL 35406, USA. E-mail: aagrawal@coe.eng.ua.edu

Abstract: Rainbow schlieren deflectometry combined with high-speed digital imaging was used to study buoyancy effects on flow structure of a helium jet discharged vertically into air. The experimental data were taken using the 2.2-sec drop tower facility at the NASA John H. Glenn Research Center in Cleveland, Ohio. The test conditions pertained to jet Reynolds number of 490 and jet Richardson number of 0.11, for which buoyancy is often considered unimportant. Experimental results show global oscillations at a frequency of 27 Hz in Earth gravity. In microgravity, the jet oscillations vanished and the jet width increased. Results provide a direct physical evidence of the importance of buoyancy on the flow structure of low-density gas jets at a Richardson number considered too small to account for gravity.

Keywords: Color Schlieren, Low-Density Jets, Flow Oscillations, High-Speed Imaging

Journal: Journal of Visualization, vol. 9, no. 1, pp. 101-109, 2006