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Acoustic Performance Evaluation and Prediction for Low Height Noise Barriers Installed Adjacent To Rails Using Scale Down Model
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 Title & Authors
Acoustic Performance Evaluation and Prediction for Low Height Noise Barriers Installed Adjacent To Rails Using Scale Down Model
Yoon, Je Won; Jang, Kang Seok; Cho, Yong Thung;
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Research on low height noise barriers installed adjacent to railways to reduce the height of the noise barrier has actively progressed in many countries except Korea. The performance of low height noise barriers is evaluated to identify barrier acoustic characteristics using a scale model of the barrier in the present research. As shown in the experimental results, if it is considered the installation of `ㄱ` type noise barrier, sound absorption material should be installed on both the top and the vertical surfaces of the barrier to improve insertion loss. Also, an analytical method such as the boundary element method, rather than a simple empirical equation, is required to evaluate the insertion loss of the barrier. In addition, noise level increase in passenger position is very small if a barrier with sound absorption material is installed. Finally, the two dimensional boundary element method is implemented to predict the acoustic characteristics of the low height barrier; the possibility of the application is confirmed from a comparison of the results of measurements and predictions.
Low height noise barrier installed adjacent to rail;Boundary element method;Insertion loss;Impedance;
 Cited by
Acoustic Performance Evaluation of Noise Barriers Installed Adjacent to Rails and Suggestion of Approximation Formula for the Prediction of Insertion Loss, Journal of the Korean society for railway, 2016, 19, 5, 629  crossref(new windwow)
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