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Volume 25 Issue 5
Jul.  2022
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GE Huiliang, HE Zuoyong, BAO Xuemei. Experimental study on spectrum of turbulent-boundary-Layer fluctuation pressure and response of a PVDF hydrophone[J]. ACTA ACUSTICA, 2000, 25(5): 403-410. DOI: 10.15949/j.cnki.0371-0025.2000.05.004
Citation: GE Huiliang, HE Zuoyong, BAO Xuemei. Experimental study on spectrum of turbulent-boundary-Layer fluctuation pressure and response of a PVDF hydrophone[J]. ACTA ACUSTICA, 2000, 25(5): 403-410. DOI: 10.15949/j.cnki.0371-0025.2000.05.004
shu

Experimental study on spectrum of turbulent-boundary-Layer fluctuation pressure and response of a PVDF hydrophone

  • 1. Hangzhou Applied Acoustic Institute Hangzhou 311400;

  • 2. Harbin Engineering University Harbin 150001;

  • 3. Hangzhou Applied Acoustic Institute Hangzhou 311400

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  • PACS: 
    • 43.60  (Acoustic signal processing)
  • Received Date: March 19, 1999
  • Revised Date: September 10, 1999
  • Available Online: July 31, 2022
    Graphical Abstract
    • Abstract
  • The point power spectrum density and the wavenumber frequency spectrum density of turbulent-boundary-layer fluctuation pressure are measured by use of a φ8 mm hydrophone and a 20-element array,respectively.The non-dimensional representation of measured point power spectrum coincides with the measured results by Bull M.K.et al.in wind tunnel.The convection peak can be seen clearly in the measured wavenumber frequency spectrum and the convection velocity can be calculated from the location of the convection peak.The response spectrum of a PVDF hydrophone,which receive area is 100 mm×60 mm,is also measured.By comparing it with the response spectrum of the φ8 mm hydrophone,it is shown that the PVDF hyrdophone has a strong wavenumber filtering effect on turbulent-boundary-layer pressure fluctuation.
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