Acoustic characteristics of external chamfered Hartmann whistles
Acoustic characteristics of external chamfered Hartmann whistles
Experimental investigations are carried out on Hartmann whistles to explore the effect of external chamfer at the cavity mouth. The acoustic performance depends upon the cavity length, jet-to-cavity-spacing and external chamfer angle (15°, 30°, and 45°). The modifications in spectral and directional characteristics of external chamfered Hartmann whistles are studied in detail and are compared with a regular cavity. The frequencies are observed to attain a minimum value at a chamfer angle of 30° along with modification in the acoustic spectra. In general, it is noticed that the external chamfered whistles are directive at an emission angle of around 45° where it is around 37° for a regular whistle. Numerical simulations portray the flow/shock oscillation features in external chamfered cavities. Simulations depict intense flow diversion at the mouth of chamfered cavities and elucidate the directivity shift as well as the enhancement of acoustic power observed experimentally. Thus, it is observed that Hartmann whistles with external chamfering could radiate acoustic power up to 2.3 times that of a non-chamfered whistle.
hartmann whistle, powered resonance tube
1104-1116
Narayanan, S.
496a8ad5-626a-442f-b61a-cd2ab3f7731e
Srinivasan, K.
a5367aa3-c40e-4c3c-825e-2d150a3e40c5
Sundararajan, T.
9487d2ce-b852-4b8b-b5ce-b921e12ae640
2013
Narayanan, S.
496a8ad5-626a-442f-b61a-cd2ab3f7731e
Srinivasan, K.
a5367aa3-c40e-4c3c-825e-2d150a3e40c5
Sundararajan, T.
9487d2ce-b852-4b8b-b5ce-b921e12ae640
Narayanan, S., Srinivasan, K. and Sundararajan, T.
(2013)
Acoustic characteristics of external chamfered Hartmann whistles.
Applied Acoustics, 74 (9), .
(doi:10.1016/j.apacoust.2013.03.005).
Abstract
Experimental investigations are carried out on Hartmann whistles to explore the effect of external chamfer at the cavity mouth. The acoustic performance depends upon the cavity length, jet-to-cavity-spacing and external chamfer angle (15°, 30°, and 45°). The modifications in spectral and directional characteristics of external chamfered Hartmann whistles are studied in detail and are compared with a regular cavity. The frequencies are observed to attain a minimum value at a chamfer angle of 30° along with modification in the acoustic spectra. In general, it is noticed that the external chamfered whistles are directive at an emission angle of around 45° where it is around 37° for a regular whistle. Numerical simulations portray the flow/shock oscillation features in external chamfered cavities. Simulations depict intense flow diversion at the mouth of chamfered cavities and elucidate the directivity shift as well as the enhancement of acoustic power observed experimentally. Thus, it is observed that Hartmann whistles with external chamfering could radiate acoustic power up to 2.3 times that of a non-chamfered whistle.
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e-pub ahead of print date: 27 April 2013
Published date: 2013
Keywords:
hartmann whistle, powered resonance tube
Organisations:
Acoustics Group
Identifiers
Local EPrints ID: 353911
URI: http://eprints.soton.ac.uk/id/eprint/353911
ISSN: 0003-682X
PURE UUID: 1e52e71c-3df8-4780-8c18-0f139c4cbb66
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Date deposited: 24 Jun 2013 15:26
Last modified: 14 Mar 2024 14:12
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Contributors
Author:
S. Narayanan
Author:
K. Srinivasan
Author:
T. Sundararajan
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