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Swirl effects on variable-density jet mixing in confined flows
Authors:Ramin Majidi  Ronald M.C. So
Affiliation:

Mechanical and Aerospace Engineering Department, Arizona State University, Tempe, AZ 85287, USA

Abstract:
An experimental investigation on swirl effects on inhomogeneous confined jet mixing in a combustor configuration is reported. The confined swirling flow was simulated by a swirler with a central jet mounted in a cyclindrical tube. Helium and air jets set at different velocities were injected into the confined swirling air flow. The resulting flow fields due to two vane swirlers with constant vane angles of 35° and 66° were compared. Results show that the 35° vane swirler produces a solid-body rotation core with a slope about twice that created by the 66° vane swirler. It is the behavior of this solid-body rotation core that determines jet mixing rather than the swirler vane angle. Consequently, the coaxial jet decays much faster, the mixing is more intense, and the turbulence intensities are higher for the 35° vane swirler. In view of these results, combustor designers should be more concerned with behavior of the solid-body rotation core produced by the swirler, instead of the swirler vane angle.
Keywords:swirling flows   variable-density mixing   combustor flows   confined turbulent flows   jet flows
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