Experimental Study on the Flow Characteristics of Streamwise Inclined Jets in Crossflow on Flat Plate

Experimental study has been conducted to investigate the flow characteristics of streamwise 35 deg inclined jets, injected into a turbulent crossflow boundary layer on a flat plate. Flow is visualized by schlieren photographs for both normal and inclined jets to determine the overall flow structure...

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Bibliographic Details
Published in:Journal of Turbomachinery; (United States) 1994-01, Vol.116 (1), p.97-105
Main Authors: Lee, Sang Woo, Lee, Joon Sik, Ro, Sung Tack
Format: Article
Language:English
Subjects:
20 FOSSIL-FUELED POWER PLANTS
Applied sciences
Continuous cycle engines: steam and gas turbines, jet engines
COOLING
CROSSFLOW SYSTEMS
ENGINES
Engines and turbines
Exact sciences and technology
FILM COOLING
FLOW VISUALIZATION
GAS TURBINE ENGINES
HEAT ENGINES
INTERNAL COMBUSTION ENGINES 200104 > Fossil-Fueled Power Plants-- Components
Mechanical engineering. Machine design
TURBINE BLADES
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Summary:Experimental study has been conducted to investigate the flow characteristics of streamwise 35 deg inclined jets, injected into a turbulent crossflow boundary layer on a flat plate. Flow is visualized by schlieren photographs for both normal and inclined jets to determine the overall flow structure with the variation of the velocity ratio. A three-dimensional velocity field is measured for two velocity ratios of 1.0 and 2.0 by using a five-hole directional probe. The visualization study shows that the variation of the injection angle produces a significant change in the flow structure. It is recognized that the jet flow is mainly dominated by the turbulence for a small velocity ratio, but it is likely to be influenced by an inviscid vorticity dynamics for a large velocity ratio. Such a trend prevails in the streamwise inclined injection, compared with the normal injection. A pair of bound vortices accompanied with a complex three-dimensional flow is present in the downstream region of the jet exit as in the case of the normal injection, although its magnitude and range are different, and the strength of the bound vortex is strongly dependent on the velocity ratio. The interface between the jet and the crossflow is identified from the vorticity distribution.
ISSN:0889-504X
1528-8900
DOI:10.1115/1.2928283