AIP Advances (Apr 2018)

Instability of a shear layer between multicomponent fluids at supercritical pressure

  • Qing-fei Fu,
  • Yun-xiao Zhang,
  • Chao-jie Mo,
  • Li-jun Yang

DOI
https://doi.org/10.1063/1.5021835
Journal volume & issue
Vol. 8, no. 4
pp. 045201 – 045201-9

Abstract

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The temporal instability of a thin shear layer lying between streams of two components of fluids has been studied. The effects of density profile of the layer on the instability behavior were mainly considered. The detailed density profile was obtained through Linear Gradient Theory. The eigenvalue problem was calculated, and the temporal instability curves were obtained for the thermodynamic parameters, e.g. pressure and temperature. The results show that, increase of pressure leads to the increase of the maximum growth rate. However, increasing pressure has opposite effects on the disturbances with small and large wave length. The increase of temperature causes the decrease of disturbance growth rate. The instability behavior of the shear layers was determined mainly by the interval between the inflections of the velocity and density profiles, and the maximum density gradient. The total effects, determined by coupling density stratification, and interval between the inflections of the velocity and density profiles, were quite distinct for different ranges of temperature and pressure.