Vortex structure and breakup mechanism of gaseous jet in supersonic crossflow with laminar boundary layer

摘要

Employing nano-particle planar laser scattering and particle image velocimetry technology, under expanded jet in supersonic crossflow with laminar boundary layer is experimental investigated in a low noise wind tunnel. Instantaneous flow structures and average velocity distribution of jet plume are captured in experimental images. Horseshoe vortex system is dominated by oscillating and coalescing regime, contributing to vortex generation of jet shear layer. The "tilting-stretching-tearing" mechanism dominating in near field raises average fractal dimension. But vortex structures generated on the windward side of jet plume scatter in jet plume and dissipate gradually, which makes the vortexes break up from outside in near field and break down into small turbulence completely in far field. (C) 2016 IAA. Published by Elsevier Ltd. All rights reserved.