Modelling and Characterization of Perforates in Lined Ducts and Mufflers

Increased national and international travel over the lastdecades has caused an increase in the global number ofpassengers using different means of transportation. Greateffort is being directed to improving the noisy environment inthe residential community. This is to face the growing strictnoise req...

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Main Author: Elnady, Tamer
Format: Doctoral Thesis
Language:English
Published: KTH, Farkost- och flygteknik 2004
Subjects:
Online Access:http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-3821
http://nbn-resolving.de/urn:isbn:91-7283-846-9
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spelling ndltd-UPSALLA1-oai-DiVA.org-kth-38212013-01-08T13:08:40ZModelling and Characterization of Perforates in Lined Ducts and MufflersengElnady, TamerKTH, Farkost- och flygteknikStockholm : Farkost och flyg2004PerforatesLinersAcoustic impedanceHot stream linersHard splicesMufflersLined ductsCollocationFlow duct.Increased national and international travel over the lastdecades has caused an increase in the global number ofpassengers using different means of transportation. Greateffort is being directed to improving the noisy environment inthe residential community. This is to face the growing strictnoise requirements which are implemented by international noiseregulatory authorities, governments, and local airports. Thereis also a strong competition between different manufacturers tomake their products quieter. The propulsion system in anaircraft is the major source of noise during relevant flightconditions. The engine noise in a vehicle dominates the totalradiated noise at low speeds especially inside cities. Manyrecent studies on noise reduction involve the use of perforatedplates in the air and gas flow ducting connected to the engine.This thesis deals with the modelling of perforates as anabsorbent. There are many difficulties in using liners in theseapplications. The most important is that there is no largesurface area to which the linings may be applied. Equally, theenvironment in which linings have to survive is hostile.Therefore, liners have to be carefully tailored in order toachieve the most efficient attenuation. The full-scalesimulation testing, which is usually necessary to define thenoise attenuation produced by a liner installation, is bothtime-consuming and expensive. Therefore, a need for accuratemodels is a must. This thesis fills some gaps in the impedancemodelling of perforated liners. It also concentrates on thosecomplicated situations of sound propagation in ducts that weresolved earlier using Finite Element Methods. Alternateanalytical solutions to these problems are developed here,which gives more physical insight into the results. The key design parameter of perforates is the acousticimpedance. The impedance is what determines their efficiency toabsorb sound waves. A semi empirical impedance model wasdeveloped to be capable of accurately predicting the linerimpedance as a function of its physical properties and thesurrounding conditions. It was compared to all previous modelsin the literature. Nothing in the literature has been reportedon the effect of temperature on the perforate impedance,therefore a complete study was performed. A new inverseanalytical impedance measurement technique was proposed. It isbased on educing the impedance value based on the measurementof the attenuation across a lined duct section. Twoapplications were further considered: The effect of hard stripsin lined ducts on there attenuation properties; and themodelling of perforations in a complicated automotive mufflersystem. Keywords:Perforates–Liners–Acousticimpedance–Hot stream liners–Hard splices–Mufflers–Lined ducts–Collocation–Flowduct. Doctoral thesis, comprehensive summaryinfo:eu-repo/semantics/doctoralThesistexthttp://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-3821urn:isbn:91-7283-846-9Trita-AVE, 1651-7660 ; 2004:30application/pdfinfo:eu-repo/semantics/openAccess
collection NDLTD
language English
format Doctoral Thesis
sources NDLTD
topic Perforates
Liners
Acoustic impedance
Hot stream liners
Hard splices
Mufflers
Lined ducts
Collocation
Flow duct.
spellingShingle Perforates
Liners
Acoustic impedance
Hot stream liners
Hard splices
Mufflers
Lined ducts
Collocation
Flow duct.
Elnady, Tamer
Modelling and Characterization of Perforates in Lined Ducts and Mufflers
description Increased national and international travel over the lastdecades has caused an increase in the global number ofpassengers using different means of transportation. Greateffort is being directed to improving the noisy environment inthe residential community. This is to face the growing strictnoise requirements which are implemented by international noiseregulatory authorities, governments, and local airports. Thereis also a strong competition between different manufacturers tomake their products quieter. The propulsion system in anaircraft is the major source of noise during relevant flightconditions. The engine noise in a vehicle dominates the totalradiated noise at low speeds especially inside cities. Manyrecent studies on noise reduction involve the use of perforatedplates in the air and gas flow ducting connected to the engine.This thesis deals with the modelling of perforates as anabsorbent. There are many difficulties in using liners in theseapplications. The most important is that there is no largesurface area to which the linings may be applied. Equally, theenvironment in which linings have to survive is hostile.Therefore, liners have to be carefully tailored in order toachieve the most efficient attenuation. The full-scalesimulation testing, which is usually necessary to define thenoise attenuation produced by a liner installation, is bothtime-consuming and expensive. Therefore, a need for accuratemodels is a must. This thesis fills some gaps in the impedancemodelling of perforated liners. It also concentrates on thosecomplicated situations of sound propagation in ducts that weresolved earlier using Finite Element Methods. Alternateanalytical solutions to these problems are developed here,which gives more physical insight into the results. The key design parameter of perforates is the acousticimpedance. The impedance is what determines their efficiency toabsorb sound waves. A semi empirical impedance model wasdeveloped to be capable of accurately predicting the linerimpedance as a function of its physical properties and thesurrounding conditions. It was compared to all previous modelsin the literature. Nothing in the literature has been reportedon the effect of temperature on the perforate impedance,therefore a complete study was performed. A new inverseanalytical impedance measurement technique was proposed. It isbased on educing the impedance value based on the measurementof the attenuation across a lined duct section. Twoapplications were further considered: The effect of hard stripsin lined ducts on there attenuation properties; and themodelling of perforations in a complicated automotive mufflersystem. Keywords:Perforates–Liners–Acousticimpedance–Hot stream liners–Hard splices–Mufflers–Lined ducts–Collocation–Flowduct.
author Elnady, Tamer
author_facet Elnady, Tamer
author_sort Elnady, Tamer
title Modelling and Characterization of Perforates in Lined Ducts and Mufflers
title_short Modelling and Characterization of Perforates in Lined Ducts and Mufflers
title_full Modelling and Characterization of Perforates in Lined Ducts and Mufflers
title_fullStr Modelling and Characterization of Perforates in Lined Ducts and Mufflers
title_full_unstemmed Modelling and Characterization of Perforates in Lined Ducts and Mufflers
title_sort modelling and characterization of perforates in lined ducts and mufflers
publisher KTH, Farkost- och flygteknik
publishDate 2004
url http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-3821
http://nbn-resolving.de/urn:isbn:91-7283-846-9
work_keys_str_mv AT elnadytamer modellingandcharacterizationofperforatesinlinedductsandmufflers
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