Optical visualization of sound source of edge tone using parallel phase-shifting interferometry

Risako Tanigawa, Kenji Ishikawa, Kohei Yatabe, Yasuhiro Oikawa, Takashi Onuma, Hayato Niwa

    Research output: Contribution to conferencePaper

    2 Citations (Scopus)

    Abstract

    In order to reduce aerodynamic noise, understanding the nature of aerodynamic sound sources is important. Generally, aerodynamic sound is measured by using microphones. However, microphones should be installed far from aerodynamic sound sources, which makes difficult to understand the nature of aerodynamic sound sources. As non-contact measurement methods, optical measurement methods of sound have been proposed. Among those, parallel phase-shifting interferometry (PPSI) can capture time-varying phenomena. Recently, simultaneous visualization of flow and sound using PPSI has been proposed. This method enables to capture the propagation of sound inside a flow. In this paper, as an application of aerodynamic sound visualization using PPSI, results of visualization of sound sources of edge tones are shown. The nozzle-edge distance and the flow rate, which are parameters of changing frequency of an edge tone, were adjusted from 5 mm to 13 mm at intervals of 1 mm and from 15 L/min to 45 L/min at intervals of 5 L/min, respectively. The frame rate of the high-speed camera in PPSI was set to 20,000 frames per second and the size of the visualization area was 77 mm by 56 mm. From the visualized images, the characteristics of spatial spread of edge tones were observed.

    Original languageEnglish
    Publication statusPublished - 2018 Jan 1
    Event47th International Congress and Exposition on Noise Control Engineering: Impact of Noise Control Engineering, INTER-NOISE 2018 - Chicago, United States
    Duration: 2018 Aug 262018 Aug 29

    Other

    Other47th International Congress and Exposition on Noise Control Engineering: Impact of Noise Control Engineering, INTER-NOISE 2018
    CountryUnited States
    CityChicago
    Period18/8/2618/8/29

    Fingerprint

    interferometry
    acoustics
    aerodynamics
    microphones
    aerodynamic noise
    intervals
    high speed cameras
    flow visualization
    optical measurement
    nozzles
    flow velocity
    propagation

    ASJC Scopus subject areas

    • Acoustics and Ultrasonics

    Cite this

    Tanigawa, R., Ishikawa, K., Yatabe, K., Oikawa, Y., Onuma, T., & Niwa, H. (2018). Optical visualization of sound source of edge tone using parallel phase-shifting interferometry. Paper presented at 47th International Congress and Exposition on Noise Control Engineering: Impact of Noise Control Engineering, INTER-NOISE 2018, Chicago, United States.

    Optical visualization of sound source of edge tone using parallel phase-shifting interferometry. / Tanigawa, Risako; Ishikawa, Kenji; Yatabe, Kohei; Oikawa, Yasuhiro; Onuma, Takashi; Niwa, Hayato.

    2018. Paper presented at 47th International Congress and Exposition on Noise Control Engineering: Impact of Noise Control Engineering, INTER-NOISE 2018, Chicago, United States.

    Research output: Contribution to conferencePaper

    Tanigawa, R, Ishikawa, K, Yatabe, K, Oikawa, Y, Onuma, T & Niwa, H 2018, 'Optical visualization of sound source of edge tone using parallel phase-shifting interferometry' Paper presented at 47th International Congress and Exposition on Noise Control Engineering: Impact of Noise Control Engineering, INTER-NOISE 2018, Chicago, United States, 18/8/26 - 18/8/29, .
    Tanigawa R, Ishikawa K, Yatabe K, Oikawa Y, Onuma T, Niwa H. Optical visualization of sound source of edge tone using parallel phase-shifting interferometry. 2018. Paper presented at 47th International Congress and Exposition on Noise Control Engineering: Impact of Noise Control Engineering, INTER-NOISE 2018, Chicago, United States.
    Tanigawa, Risako ; Ishikawa, Kenji ; Yatabe, Kohei ; Oikawa, Yasuhiro ; Onuma, Takashi ; Niwa, Hayato. / Optical visualization of sound source of edge tone using parallel phase-shifting interferometry. Paper presented at 47th International Congress and Exposition on Noise Control Engineering: Impact of Noise Control Engineering, INTER-NOISE 2018, Chicago, United States.
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