Abstract

This contribution deals with the acoustic simulation of aerodynamical noise generated by a flow over an airfoil or by flow in a flexible channel. Since the considered flow has low Mach number the hybrid approach of acoustic analogies can be applied here with benefits. The fluid-structure-acoustic interaction problem is generally described as a quite complicated problem comprising of three different physical fields - the vibration of the elastic body, the unsteady fluid flow and the acoustics together with mutual couplings. The fluid flow in time dependent domain is governed by the incompressible Navier-Stokes equations in arbitrary Langrangian-Eulerian formulation and the elastic structure is modelled by the means of linear elasticity theory. The Lighthill analogy and acoustic perturbation equation (APE) is considered to describe the sound propagation. The simulation of fluid-structure (FSI) interaction and acoustic field is implemented using the FEM in an in-house solver. The sound sources computed from FSI results are analyzed and within sound propagation simulation the perfectly matched layer technique is used. In the end the results of Lighthill and APE analogy are compared.

Highlights

  • The simulation of noise creation and propagation is of a quite big importance today due to increasing number and power of noise producing devices

  • Are listed the numerical results of acoustic field generated by flow around an airfoil or in a channel

  • 4.2 Numerical results of fluid-structure-acoustic interaction (FSAI) The fluid-structure interaction (FSI) results were achieved by in-house FEM program with implemented P1-bubble/P1 elements, acoustics were computed by academic solver CFS++ from TU Vienna

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Summary

INTRODUCTION

The simulation of noise creation and propagation is of a quite big importance today due to increasing number and power of noise producing devices. Good examples of external and internal problems with aerodynamically generated sound are air flow around airfoil, air-conditioning or sound produced by human vocal fold model. These problems are studied by experimental, analytical and numerical methods in many applications, see for example [1] or [2], the acoustic simulation within fluid-structure interaction (FSI) problem is used only rarely, see for example [3]. During solution of sound propagation the perfectly matched layer (PML) technique is used due to the simulation in the open domains. In the end the numerical simulation of sound propagation is given and the results of the Lighthill analogy and APE analogy is presented

MATHEMATICAL DESCRIPTION
Fluid flow
ALE method
Elastic body
Aeroacoustics
Coupling conditions
NUMERICAL SCHEME
NUMERICAL RESULTS
CONCLUSION

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