Minghui Xu scite author profile

Aiming to obtain the acoustic attenuation performance of exhaust muffler of diesel engine and the influence of main structural parameters on its acoustic attenuation characteristics, the finite element analysis method and acoustic theory were adopted to numerically investigate the acoustic attenuation performance under the boundary condition of acoustic adiabatic propagation and muffler wall. It suggested that the noise cancellation effect of muffler was poor at the middle and low frequency in range of 0-3000 Hz, and the transfer loss of muffler was basically 0 dB pass frequency at 1100 Hz. According to previous single-factor study experience, the structural factors, such as the expansion ratio, insertion length of outlet perforated pipe, the distance between the diaphragm and the front part of muffler, have influences on the acoustic performance of muffler at low frequency. Thus, they were taken as the starting point to study the influence of multiple interaction factors on the muffling performance by using orthogonal design method combined with the finite element analysis method. The influence degree of different structure parameters on the acoustic performance of muffler and the optimized structure parameters were obtained. Through the analysis on the acoustic characteristic of the optimized muffler, it indicated that the transmission loss of the improved muffler had significant increase in other frequency range except the range of 650-800 Hz and 2500-2700 Hz, especially at frequency of 1100 Hz compared with the original muffler. In the range of 0-3000 Hz, the mean of transmission loss of the improved muffler was about 9.8 dB larger than that of original muffler, which indicated that better noise cancellation effect was achieved. The improved muffler also provided a certain reference for the structural improvement of similar muffler.

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Effects of structural parameters on transmission loss of diesel engine muffler and analysis of prominent structural parameters

Wei

et al. 2021

Applied Acoustics

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Study on the influence of structure factors of diesel engine exhaust purification muffler on transmission loss in different frequency bands

Wei

et al. 2021

Applied Acoustics

View full text Add to dashboard Cite

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Minghui Xu

Effect of voids on the acoustics of perforated dissipative silencers

Muffler structure improvement based on acoustic finite element analysis

Effects of structural parameters on transmission loss of diesel engine muffler and analysis of prominent structural parameters

Study on the influence of structure factors of diesel engine exhaust purification muffler on transmission loss in different frequency bands

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