Estimating the influence of double-sided rounded screens on the acoustic field around a linear sound source

Didkovskyi, Vitalii; Zaets, Vitaly; Kotenko, Svetlana; Denysenko, Volodymyr; Didenko, Yuriy

doi:10.15587/1729-4061.2021.234657

Cited by 2 publications

(1 citation statement)

References 15 publications

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“…In [17], an analytical solution to the problem was proposed using acoustically rigid rounded baffles on both sides of the road. This approach made it possible to estimate the maximum increase in sound pressure in the space between the barriers.…”

Section: Research Of Existing Solutions To the Problemmentioning

confidence: 99%

Influence of sound-absorping properties of noise protection barriers on road traffic participants

Zaets

Bida

2021

TAPR

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The object of research is the sound field from linear sound sources between two parallel impedance noise barriers. The presence of barriers changes the structure of the sound field, as a result of which the sound pressure level in the area between the barriers increases. An increase in sound levels leads to both a decrease in the effectiveness of noise barriers and an increase in the negative impact on road users. One of the ways out of this situation is the construction of barriers with sound-absorbing properties. In this paper, the influence of the impedance properties of the barriers at the level of sound pressure in the area between the barriers is considered. The finite element method was chosen to calculate the sound field around the barrier. A computer model of a linear sound source with vertical sound-absorbing barriers on both sides of the source was built in the Comsol Multiphysics software environment. The sound absorption properties of the barrier were determined by the acoustic impedance of the face of the barrier. The sound fields were calculated in octave bands with geometric mean frequencies from 31 to 500 Hz. In addition, the parameters that were also analyzed were the distance between the barriers and their height. The solution of the problem made it possible to obtain a field of sound pressure levels around the barrier. Changeable simulation parameters made it possible to analyze a large number of situations of relative position of barriers and their heights encountered in engineering. Studies have shown that only at low frequencies and relatively small distances between barriers, the sound pressure level can increase significantly. However, it has also been shown that the use of sound-absorbing lining of noise barriers can reduce the sound pressure levels in the area between the barriers and improve the acoustic conditions for road users.

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Section: Research Of Existing Solutions To the Problemmentioning

confidence: 99%