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- Title
Acoustic Attenuation Prediction of Perforated Reactive and Dissipative Mufflers With Flow by Using Frequency-Domain Linearized Navier-Stokes Equations.
- Authors
Zhirong He; Zhenlin Ji; Hongpu Huang
- Abstract
To comprehensively consider the impact of complex airflow on sound propagation, a numerical approach by solving the three-dimensional (3-D) frequency-domain linearized Navier-Stokes equations (LNSEs) is proposed to accurately predict the transmission losses of perforated tube reactive and dissipative mufflers in the presence of complex airflow. The numerical computations are performed in two steps: (1) solve the time averaged flow by steady-state computational fluid dynamics (CFD) simulation and then map the results into acoustic mesh; (2) treat sound-absorbing material as an equivalent fluid and obtain acoustic perturbation variables by solving the frequencydomain LNSEs. The transmission losses of perforated tube reactive and dissipative mufflers are measured in the presence of flow and compared with the numerical predictions. The excellent consistencies between predictions and measurements validate the present approach. The influence of Mach number on acoustic attenuation performance of perforated tube reactive and dissipative mufflers is then investigated. With Mach number increases, the transmission loss of perforated tube reactive muffler increases somewhat, while the transmission loss of dissipative mufflers decreases obviously in the lower frequency range and change is limited at higher frequencies.
- Subjects
NAVIER-Stokes equations; COMPUTATIONAL fluid dynamics; MACH number; STEADY-state flow; ACOUSTIC wave propagation; ACOUSTIC vibrations; ACOUSTIC streaming; AIR flow
- Publication
International Journal of Acoustics & Vibration, 2023, Vol 28, Issue 4, p394
- ISSN
1027-5851
- Publication type
Article
- DOI
10.20855/ijav.2023.28.41981