Sarah Parrish scite author profile

SUMMARYFor the case of uniform mean flow in an arbitrary direction, perfectly matched layer (PML) absorbing boundary conditions are presented for both the linearized and nonlinear Euler equations. Although linear perfectly matched side layers with an oblique mean flow have been studied in previous works, we propose in the present paper a construction of corner layer equations that are dynamically stable. Stability issues are investigated by examining the dispersion relations of linear waves supported by the corner layer equations. For increased efficiency, a pseudo mean flow is included in the derivation of the PML equations for the nonlinear case. Numerical examples are given to support the validity of the proposed equations. Specifically, the linear PML formulation is tested for the case of acoustic, vorticity, and entropy waves traveling with an oblique mean flow. The nonlinear formulation is tested with an isentropic vortex moving diagonally with a constant velocity.

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Indirect combustion noise of auxiliary power units

Tam

Parrish

et al. 2013

Journal of Sound and Vibration

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Noise of high-performance aircrafts at afterburner

Tam¹,

Parrish²

2014

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Sarah Parrish

The Harmonics of Jet Screech Tones

Harmonics of Jet Screech Tones

PML absorbing boundary conditions for the linearized and nonlinear Euler equations in the case of oblique mean flow

Indirect combustion noise of auxiliary power units

Noise of high-performance aircrafts at afterburner

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