Title
Investigation of nonlinear propagation effects on sound from supersonic bullets
Author
Salomons, E.
van der Eerden, F.
van den Berg, F.
Publication year
2022
Abstract
ISO standard 17201-4 is a calculation method for sound levels generated by supersonic bullets. The standard takes into account nonlinear propagation effects, including broadening of a sound pulse with increasing propagation distance. Two elements of the ISO method are investigated in this paper: i) the accuracy for various Mach numbers, and ii) the effect of noise barriers. For the first element, calculation results are compared with measurement results. In general the agreement is good, but large deviations occur at Mach numbers near unity. Calculation parameters were varied in order to find an explanation for the deviations. For the second element, propagation paths along the horizontal top edge and the vertical side edges of a barrier of finite length are considered. For the path over the top edge, a possible approach is developed to account for the expected reduction of nonlinear propagation effects in the shadow region behind a barrier. For the paths along the vertical side edges, a simulation model with a dense distribution of point sources is employed. The three propagation paths are explained in terms of pairwise cancellation of Fresnel zones. The results of the simulation model are compared with results of an engineering model. (C) 2022 Internoise 2022 - 51st International Congress and Exposition on Noise Control Engineering. All rights reserved.
Subject
Aerodynamics
Mach number
Effect of noise
ISO standards
Noise barriers
Nonlinear propagation effect
Propagation distances
Propagation paths
Simulation model
Sound pulse
Sound's levels
Supersonic bullets
ISO Standards
To reference this document use:
http://resolver.tudelft.nl/uuid:021ea3d9-8196-464d-b5da-cba7ea98e389
TNO identifier
982264
Publisher
The Institute of Noise Control Engineering of the USA
ISBN
9781906913427
Source
Internoise 2022 - 51st International Congress and Exposition on Noise Control Engineering
Document type
conference paper