Broadband sound power determination in flow ducts
Broadband sound power determination in flow ducts
This paper presents a new experimental technique, which enables not only the calculation of in-duct transmitted sound power for dominant tones, but also for broadband noise over a wide frequency range. The new method also distinguishes between sound power transmitted in and against the direction of flow. It can be performed using wall-flush installed pressure sensors as well as radial sensor rakes in the flow. The method is mathematically derived based on the analytical solution of the wave equation describing sound propagation in ducts with superimposed static mean flow. The analysis technique requires cross-correlation measurements, e.g. between azimuthally traversable sensor arrays and at least one fixed reference sensor. It assumes an invariant mean broadband noise sound field. The broadband sound power determination method was experimentally verified in a low speed DLR laboratory fan experiment against the ISO 5136 standard for in-duct sound power determination. The experimental setup consists of a single-stage compressor in a flow duct with a diameter of 500 mm. An azimuthally traversable duct section located 2m downstream of the rotor can be equipped alternatively with a sampling tube for measurements after ISO 5136 or microphone rakes for in-duct mode detection. For mode detection, 8 microphones were installed in the moving duct section, which was traversed over 36 azimuthal positions. A wall-flush mounted microphone was used as a reference sensor. Experimental results are presented for three operating conditions and two different compressor tip clearances.
Enghardt, Lars
399cf255-b1c6-49aa-874a-ac946887013f
Neuhaus, Lars
6c4fa42e-1042-4c16-965b-c7214b464276
Lowis, Chris
9e1f6e82-91cd-4ca8-8b1f-ecb19de3ebce
2004
Enghardt, Lars
399cf255-b1c6-49aa-874a-ac946887013f
Neuhaus, Lars
6c4fa42e-1042-4c16-965b-c7214b464276
Lowis, Chris
9e1f6e82-91cd-4ca8-8b1f-ecb19de3ebce
Enghardt, Lars, Neuhaus, Lars and Lowis, Chris
(2004)
Broadband sound power determination in flow ducts.
10th AIAA/CEAS Aeroacoustics Conference, Manchester, UK, Manchester, United Kingdom.
10 - 12 May 2004.
Record type:
Conference or Workshop Item
(Paper)
Abstract
This paper presents a new experimental technique, which enables not only the calculation of in-duct transmitted sound power for dominant tones, but also for broadband noise over a wide frequency range. The new method also distinguishes between sound power transmitted in and against the direction of flow. It can be performed using wall-flush installed pressure sensors as well as radial sensor rakes in the flow. The method is mathematically derived based on the analytical solution of the wave equation describing sound propagation in ducts with superimposed static mean flow. The analysis technique requires cross-correlation measurements, e.g. between azimuthally traversable sensor arrays and at least one fixed reference sensor. It assumes an invariant mean broadband noise sound field. The broadband sound power determination method was experimentally verified in a low speed DLR laboratory fan experiment against the ISO 5136 standard for in-duct sound power determination. The experimental setup consists of a single-stage compressor in a flow duct with a diameter of 500 mm. An azimuthally traversable duct section located 2m downstream of the rotor can be equipped alternatively with a sampling tube for measurements after ISO 5136 or microphone rakes for in-duct mode detection. For mode detection, 8 microphones were installed in the moving duct section, which was traversed over 36 azimuthal positions. A wall-flush mounted microphone was used as a reference sensor. Experimental results are presented for three operating conditions and two different compressor tip clearances.
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Published date: 2004
Additional Information:
AIAA 2004-2940
Venue - Dates:
10th AIAA/CEAS Aeroacoustics Conference, Manchester, UK, Manchester, United Kingdom, 2004-05-10 - 2004-05-12
Identifiers
Local EPrints ID: 10419
URI: http://eprints.soton.ac.uk/id/eprint/10419
PURE UUID: ea088d8a-e7c6-484f-9ca9-cbeea5e65e28
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Date deposited: 07 Feb 2006
Last modified: 15 Jan 2024 17:54
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Contributors
Author:
Lars Enghardt
Author:
Lars Neuhaus
Author:
Chris Lowis
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