EPJ Web of Conferences (Mar 2014)

An accurate quantification of the flow structure along the acoustic signal cycle in a forced two-phase jet

  • Calvo Bernad Esteban,
  • García Rodríguez Juan Antonio,
  • Santolaya Sáenz José Luis,
  • Aísa Miguel Luis Adrián,
  • García Palacín J. Ignacio

DOI
https://doi.org/10.1051/epjconf/20146702013
Journal volume & issue
Vol. 67
p. 02013

Abstract

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This paper provides an experimental study of an acoustically forced two-phase air jet generated by a convergent nozzle. The used particles are transparent glass spheres with diameters between 2 and 50 μm (which gives Stokes number of order 1) and the selected forcing frequency (f=400 Hz) induces a powerful nearly periodic flow pattern. Measurements were done by a two-colour Phase-Doppler Anemometer. The experimental setup is computer-controlled to provide an accurate control with a high long-term stability. Measurements cover the whole forcing signal cycle. Raw measurements were carefully post-processed to avoid bias induced by the forcing and the instrument setup, as well as obtain right mean values of the dispersed flow. The effect of the forcing and the particle load allows authors to establish the effect of the acoustic forcing and the particle load on the jet.