Open AccessOn the use of linearized Euler equations in the prediction of jet noise
Author(s) -
Reda R. Mankbadi,
Ray Hixon,
Shih S-HPovinelli
Publication year - 1995
Publication title -
33rd aerospace sciences meeting and exhibit
Language(s) - English
Resource type - Conference proceedings
DOI - 10.2514/6.1995-505
Subject(s) - euler equations , supersonic speed , jet noise , noise (video) , euler's formula , jet (fluid) , large eddy simulation , boundary layer , dissipation , boundary value problem , jet engine , mechanics , acoustics , mathematical analysis , physics , mathematics , computer science , turbulence , artificial intelligence , image (mathematics) , thermodynamics
Linearized Euler equations are used to simulate supersonic jet noise generation and propagation. Special attention is given to boundary treatment. The resulting solution is stable and nearly free from boundary reflections without the need for artificial dissipation, filtering, or a sponge layer. The computed solution is in good agreement with theory and observation and is much less CPU-intensive as compared to large-eddy simulations.
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