Journal of Fluid Science and Technology (Jul 2014)

Study on flow-induced acoustic resonance in symmetrically located side-branches using dynamic PIV technique

  • Yanrong LI,
  • Satoshi SOMEYA,
  • Koji OKAMOTO,
  • Terumi INAGAKI,
  • Yasuyuki NISHI

DOI
https://doi.org/10.1299/jfst.2014jfst0015
Journal volume & issue
Vol. 9, no. 2
pp. JFST0015 – JFST0015

Abstract

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Flow-induced acoustic resonance in a piping system containing closed coaxial side-branches was investigated experimentally. Resonance characteristics of the piping system were examined by a microphone. The results revealed that the resonance frequencies of the shear layer instability were locked in corresponding to the natural frequencies of the side-branches. Phase-averaged velocity fields were obtained two-dimensionally in the junction of coaxial side-branches by dynamic particle image velocimetry (PIV), while the acoustic resonance was induced at the first and second hydrodynamic modes. Patterns of jet correspond to two hydrodynamic modes were derived from the phase-averaged velocity fields. The dynamic PIV can acquire time-series velocity fluctuations, then, two-dimensional phase delay maps under resonance and off-resonance conditions in the junction of coaxial side-branches were obtained. Experimental results show that the proposed phase delay map method costs less experiment and computation time and achieves a better accuracy and repetition than the phase-locking technique. In addition, the phase delay map method can obtain phase difference under the different frequency components. This is important when two different acoustic modes were induced in one experimental condition.

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