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On Acoustic Multi-Port Characterisation Including Higher Order Modes
Acta acustica united with Acustica, 2016-09, Vol.102 (5), p.834-850
Sack, S.
Åbom, M.
2016
Details
Autor(en) / Beteiligte
Sack, S.
Åbom, M.
Titel
On Acoustic Multi-Port Characterisation Including Higher Order Modes
Ist Teil von
Acta acustica united with Acustica, 2016-09, Vol.102 (5), p.834-850
Ort / Verlag
Hirzel Verlag
Erscheinungsjahr
2016
Link zum Volltext
Quelle
Alma/SFX Local Collection
Beschreibungen/Notizen
Methods to design test-procedures for acoustic multi-ports in ducts with a focus on pressure sampling positions for accurate modal decomposition are demonstrated. Acoustic fields up- and downstream of an in-duct acoustic element are excited by external sources and decomposed into transmitted and reflected aeroacoustic modal pressure amplitudes in order to first determine the acoustic scattering of the element. Secondly, the determination of the element source strength requires tests with no external sources, but with known terminations and scattering data. Unfavourable source and sensor positions lead to mode coupling and to ill-conditioned or even singular decomposition matrices, which results in high amplifications of uncertainties within the wave decomposition. An unoptimised but over-determined assembly is compared with a setup containing a minimum of sensors but with optimised positions. Lower uncertainty amplification, despite the usage of fewer sensors, is achieved for most frequencies, especially after the cut-on of t he higher order acoustic modes. A genetic algorithm (GA) is used to achieve this optimised setup by minimising the condition number of the decomposition matrix, which is a multi-dimensional optimisation problem with numerous local minima. To estimate the stability of the optimised configuration, a Monte-Carlo Method (MCM) is deployed to introduce normal distributed complex pressure uncertainties into the decomposition. In order to estimate the wave number, different approaches are compared - namely the classical non-dissipative wav e number estimate, an extended Kirchhoff method for viscous-thermal damping and an eigenvalue solution of the Linearised Navier Stokes Equations by Dokumaci. The presented decomposition method is not only applicable to measurement data but is equally useful to post-process results from numerical computations. © 2016 The Author(s). Published by S. Hirzel Verlag · EAA. This is an open access article under the terms of the Creative Commons Attribution (CC BY 4.0) license (https://creativecommons.org/licenses/by/4.0/).
Sprache
Englisch
Identifikatoren
ISSN: 1610-1928, 1861-9959
DOI: 10.3813/AAA.918998
Titel-ID: cdi_swepub_primary_oai_DiVA_org_kth_192482
Format
–
Schlagworte
acoustic
,
acoustic duct modes
,
acoustic Measurements
,
aeroacoustic
,
Aerospace Engineering
,
duct-acoustic
,
Flyg- och rymdteknik
,
Genetic Algorithm
,
Monte Carlo
,
multi-port
,
optimization
,
orifice flow
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