Volume 13, Issue 2 (6-2023)                   ASE 2023, 13(2): 4102-4109 | Back to browse issues page

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Ebrahimi H, Shojaeifard M, Ebrahimi-Nejad S. Vehicle Double-chamber Muffler Optimization for Weight and Performance Improvement. ASE 2023; 13 (2) :4102-4109
URL: http://www.iust.ac.ir/ijae/article-1-630-en.html
Vehicle Double-chamber Muffler Optimization for Weight and Performance Improvement
Hamidreza Ebrahimi , MohammadHassan Shojaeifard , Salman Ebrahimi-Nejad
Vehicle Dynamical Systems Research Lab, School of Automotive Engineering, Iran University of Science and Technology, Tehran, Iran, Tel.: +98 21 7322 3958; Fax: +98 21 73021490
Abstract:   (3793 Views)
The present study aims to optimize a two-chamber muffler’s geometry and improve its acoustic performance. Mufflers with a circular cross-section are used in this study and then underwent the vibroacoustic analysis using COMSOL Multiphysics software. Several geometries, including a reference model and new ones, are designed and their geometry is optimized by Parametric and grid optimization methods, which are the software’s optimization methods. First, the reference paper is validated to ensure the simulation produces the least error. The results obtained in this study have a good match with those of the reference. Then, by changing dimensions such as length, diameter, and inner design of the mufflers, the best geometry in terms of transmission loss and bandwidth was selected and compared with the results acquired by the reference model. It was found that the acoustic performance of the optimized design (two-chamber muffler with four inner tubes) outperforms the model used in the reference. That is, the results indicate that the optimized design is able to attenuate sound up to 78dB in the range of 0 to 500Hz, 45dB higher than that of the conventional model. Further, the muffler’s weight is reduced by a quarter, using a 0.9mm thickness.
Keywords: Single-chamber muffler, Two-chamber muffler, Improved silencer, Weight loss, Performance improvement
Full-Text [PDF 668 kb]   (1720 Downloads)    
Type of Study: Research | Subject: Vibration, noise, Acoustic
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