论文信息 - A new analytical method for the calculation of outdoor noise propagation

A new analytical method for the calculation of outdoor noise propagation

Abstract A new analytical method for the prediction of road traffic noise propagation (called MAPB in French) is presented. This method answers the need of a simple calculation tool usable in the new standard that is being elaborated in France. From the Fresnel zone concept and from simplifications of Weyl-van der Pol’s theory and Geometrical Theory of Diffraction (GTD), new expressions of attenuation due to the ground as well as that due to different barrier types are developed. The complete model in a homogeneous atmosphere (MAPB-H) is obtained by combining these expressions using a classical geometric method. For the case of an atmosphere with a small constant sound speed gradient, the use of corrective length and height terms gives the complete formulation of the MAPB-F (for a positive gradient favourable to propagation) and the MAPB-D (for a negative gradient unfavourable to propagation). Turbulence is neglected in this approach. MAPB-H is validated using a numerical Boundary Element Method (BEM). MAPB-F and MAPB-D are validated with the help of a mixed Rasmussen-Brekhovskikh numerical method, as well as with outdoor measurements. Comparisons of results obtained with the MAPB and those obtained from numerical methods and measurements show good agreement.

J. Defrance | Y. Gabillet | J. Defrance | Y. Gabillet

[1] Ulrich J. Kurze,et al. Noise reduction by barriers , 1973 .

[2] M. Almgren,et al. Simulation by using a curved ground scale model of outdoor sound propagation under the influence of a constant sound speed gradient , 1987 .

[3] K. Attenborough. Acoustical impedance models for outdoor ground surfaces , 1985 .

[4] Chen-Fu Chien,et al. Sound propagation along an impedance plane , 1975 .

[5] J. Defrance,et al. New analytical expressions for predicting diffraction and ground effects , 1996 .

[6] H. Macdonald. Diffraction at a Straight Edge , 1915 .

[7] K. B. Rasmussen. A note on the calculation of sound propagation over impedance jumps and screens , 1982 .

[8] T. Kawai. Sound diffraction by a many-sided barrier or pillar , 1981 .

[9] R. Kouyoumjian,et al. A uniform geometrical theory of diffraction for an edge in a perfectly conducting surface , 1974 .

[10] G. Millington,et al. Double knife-edge diffraction in field-strength predictions , 1962 .

[11] P. Jean. A VARIATIONAL APPROACH FOR THE STUDY OF OUTDOOR SOUND PROPAGATION AND APPLICATION TO RAILWAY NOISE , 1998 .

[12] Zyun-iti Maekawa,et al. Noise reduction by screens , 1968 .

[13] J. Deygout. Evaluation de l'affaiblissement de propagation des ondes décimétriques en zone rurale , 1992 .

[14] F. N. Frenkiel,et al. Waves In Layered Media , 1960 .

[15] E. N. Bazley,et al. Acoustical properties of fibrous absorbent materials , 1970 .