CFD Prediction of Narrowband and Broadband Cavity Acoustics at M=0.85
暂无分享,去创建一个
Two rectangular cavity configurations at Mach 0.85 are investigated with the objective of assessing the extent to which 3D CFD with advanced turbulence modeling is capable of predicting narrowband and broadband flow noise. A non-linear, two-equation, eddy-viscosity model run in unsteady mode (URANS) is compared with Detached Eddy Simulation (DES) on a cavity with a L/D ratio of 5, representing cavity flow in so-called shear layer mode. Detailed experimental data for this cavity, configured with and without doors, provides a valuable opportunity to compare predictions of the spectra at many points along the cavity ceiling and band limited amplitude along the cavity length.
[1] S. Corrsin,et al. Simple Eulerian time correlation of full-and narrow-band velocity signals in grid-generated, ‘isotropic’ turbulence , 1971, Journal of Fluid Mechanics.
[2] A. D. Gosman,et al. The computation of compressible and incompressible recirculating flows by a non-iterative implicit scheme , 1986 .
[3] Osamu Murata,et al. Numerical prediction of fluid-resonant oscillation at low Mach number , 2000 .