Article ID Journal Published Year Pages File Type
8056456 Acta Astronautica 2015 26 Pages PDF
Abstract
The effect of oblique and transverse injection on the transverse jet was investigated by the hybrid RANS/LES simulation with recycling-rescaling procedure. The streamwise velocity distribution and instantaneous fine turbulent structures of transverse jet obtained by the particle image velocimetry (PIV) and nanoparticle-based planar laser-scattering (NPLS) are applied to validate the accuracy of simulation approach. Statistics obtained from the hybrid RANS/LES simulation with fine mesh shown good agreement with the experimental results. Four kinds of vortex structures are observed in the flow field, namely leading edge vortices, hanging vortices, counter-rotating vortex pairs (CVPs) and horseshoes vortex. The instantaneous results and spatial correlation analysis show that the size and interval of large-scale structures in windward shear layer of 45o jet are smaller and shorter than that of 90o jet, respectively. Compared with the 45o jet, the stronger shear between injectant and crossflow leads to the early breakup of CVPs in 90o jet, so the length of CVPs in 90o jet is shorter than that of 45o jet in time-averaged results. The simulation also shows that the rotating number of CVPs in 45o jet is more than in 90o jet, but the mixing of 45o jet is worse than that of 90o jet, which indicates that the large-scale structures in the shear layer between the crossflow and injectant make more contribution to the mixing process.
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Physical Sciences and Engineering Engineering Aerospace Engineering
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