论文信息 - ACOUSTIC INSERTION LOSS PROVIDED BY RIGID ACOUSTIC BARRIERS OF DIFFERENT SHAPES

ACOUSTIC INSERTION LOSS PROVIDED BY RIGID ACOUSTIC BARRIERS OF DIFFERENT SHAPES

The present article studies what effect the shape of a rigid acoustic barrier has on the acoustic insertion loss provided by the barrier. The Boundary Element Method (BEM), formulated in the frequency domain, is used to evaluate the sound propagation around acoustic screens in the vicinity of a tall building. The acoustic screen is assumed to be non-absorbing, and the building is modeled as an infinite barrier. Signals in the time domain are obtained from the frequency domain computations by applying inverse Fourier transforms. In the examples provided, the height of the acoustic barrier remains constant, but different geometric shapes are modeled. The results obtained for a vertical barrier are used as a reference.

[1] D. Duhamel,et al. SOUND PROPAGATION OVER NOISE BARRIERS WITH ABSORBING GROUND , 1998 .

[2] Robert A. Phinney,et al. Theoretical calculation of the spectrum of first arrivals in layered elastic mediums , 1965 .

[3] D. Duhamel. EFFICIENT CALCULATION OF THE THREE-DIMENSIONAL SOUND PRESSURE FIELD AROUND A NOISE BARRIER , 1996 .

[4] T. Terai. On calculation of sound fields around three dimensional objects by integral equation methods , 1980 .

[5] Simon N. Chandler-Wilde,et al. INFLUENCE OF SHAPE AND ABSORBING SURFACE—A NUMERICAL STUDY OF RAILWAY NOISE BARRIERS , 1998 .

[6] Y. Kawai,et al. The application of integral equation methods to the calculation of sound attenuation by barriers , 1990 .