Archivio Istituzionale della RicercaPorous materials have been widely investigated as a mean for noise reduction. Numerical simulations can be used to investigate the physical mechanisms responsible for noise reduction; however, a correct modeling of the porous medium through an equivalent fluid model is essential to minimize the computational costs. This paper reports a detailed review of a few applications of the equivalent fluid model based on a three-layer approach, a method that is particularly useful to account for the variation of porous material thickness in aerospace applications. The multilayer approach has been applied in three relevant aerodynamic noise issues: leading-edge impingement noise, turbulent boundary-layer trailing-edge noise, and jet installation noise. Comparison with experiments is used to validate the simulation approach.
Applications of the Multilayer Porous Medium Modeling Approach for Noise Mitigation / Teruna, Christopher; Rego, Leandro; Avallone, Francesco; Ragni, Daniele; Casalino, Damiano. - In: JOURNAL OF AEROSPACE ENGINEERING. - ISSN 0893-1321. - 34:6(2021), p. 04021074. [10.1061/(ASCE)AS.1943-5525.0001326]
Applications of the Multilayer Porous Medium Modeling Approach for Noise Mitigation
Avallone, Francesco;Casalino, Damiano
2021
Abstract
Porous materials have been widely investigated as a mean for noise reduction. Numerical simulations can be used to investigate the physical mechanisms responsible for noise reduction; however, a correct modeling of the porous medium through an equivalent fluid model is essential to minimize the computational costs. This paper reports a detailed review of a few applications of the equivalent fluid model based on a three-layer approach, a method that is particularly useful to account for the variation of porous material thickness in aerospace applications. The multilayer approach has been applied in three relevant aerodynamic noise issues: leading-edge impingement noise, turbulent boundary-layer trailing-edge noise, and jet installation noise. Comparison with experiments is used to validate the simulation approach.
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https://hdl.handle.net/11583/2976904