Acoustic performance and flow analysis of a multi-chamber perforated resonator for the intake system of a turbocharged engine

Guo, Rong; Tang, Wenbo; Zhu, Wei

doi:10.1177/0954407016633563

Cited by 6 publications

(2 citation statements)

References 15 publications

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“…Noise reduction on motor vehicle in meeting passenger comfort requirement has become a major concern among automotive industries and researchers [1,2]. As the internal combustion engine acts as the vehicle's power source, it also creates noise which decreases passenger comfort level and contributes to noise pollution especially in a city [2,3]. Tire, wind, exhaust and intake are considered as airborne noise in vehicle environment.…”

Section: Introductionmentioning

confidence: 99%

Acoustic Study of an Air Intake System of SI Engine using 1-Dimensional Approach

Dahlan¹,

Said²,

Latiff³

et al. 2019

IJAME

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Air intake system of an internal combustion engine plays main role in delivering fresh air from the environment to the engine and dampening the sound of the engine combustion process coming from the engine combustion process. In this study, a simulation was conducted to improve the existing air intake system design in terms of acoustic study to have better sound quality by modifying the resonators, air duct and airbox volume of the air intake module. This study implements the 1-dimensional simulation study using commercial software, correlate to the 1.6-liter natural aspirated engine. The objective of this study is to decrease the engine noise at snorkel of the air intake module without losing too much of pressure drop. At the end of this study, the analysis defines the geometry of air intake module with the recommended resonator for fabrication and physical testing. The simulation result shows that the modified air intake module meet the objective and fulfil the performance target.

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Section: Introductionmentioning

confidence: 99%

Acoustic Study of an Air Intake System of SI Engine using 1-Dimensional Approach

Dahlan¹,

Said²,

Latiff³

et al. 2019

IJAME

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“…Generally, the inlets and outlets of internal combustion engines (ICEs) can be treated as a pipeline with many variations in cross-section and shape. During the normal operation of vehicle powertrains, especially ICEs with turbochargers, there are periodic interchanges with significant changes in pulsation frequency [7][8][9]. The tuning inlets and outlets of vehicle systems are also a consideration.…”

Section: Introductionmentioning

confidence: 99%

Experimental and Numerical Investigations of Pipeline with Resonator

Pałczyński

Kantyka

2019

Mechanics and Mechanical Engineering

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This article presents the current state of the art regarding the use resonators in straight pipes. There is considerable need to control and reduce pressure pulsation in pipelines supplied with pulsating flows. The use of a Helmholz resonator introduces an additional degree of freedom to the analysed dynamic system. Building on previous experimental investigations by the authors, which identified the nonlinear properties of straight pipes supplied with pulsating flows, this study describes an experimental test rig, measurement methods and mechanical analogies for one (1DOF) and two (2DOF) degrees of freedom. The results are presented in the form of a 3D map of amplitude-frequency characteristics, as a function of the resonator volume determined by piston height. The dynamic properties of the described system are presented as amplitude-phase characteristics, based on a comparison of the numerical and experimental results.

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A two-dimensional approach for sound attenuation of multi-chamber perforated resonator and its optimal design

et al. 2017

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Acoustic performance and flow analysis of a multi-chamber perforated resonator for the intake system of a turbocharged engine

Cited by 6 publications

References 15 publications

Acoustic Study of an Air Intake System of SI Engine using 1-Dimensional Approach

Acoustic Study of an Air Intake System of SI Engine using 1-Dimensional Approach

Experimental and Numerical Investigations of Pipeline with Resonator

A two-dimensional approach for sound attenuation of multi-chamber perforated resonator and its optimal design

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