# DNS of a plane mixing layer for the investigation of sound generation mechanisms

@inproceedings{Babucke2008DNSOA, title={DNS of a plane mixing layer for the investigation of sound generation mechanisms}, author={Andreas Babucke and Markus J. Kloker and U. Rist}, year={2008} }

- Published 2008
DOI:10.1016/j.compfluid.2007.02.002

Direct numerical simulations in two and three dimensions have been performed to investigate the sound generation by vortex pairing in a compressible plane mixing layer with Ma1 = 0.5 being the upper and Ma2 = 0.25 being the lower stream Mach number. The Reynolds number based on the vorticity thickness at the inflow and the velocity of the upper stream is Re = 500. The flow is forced at the inflow with eigenfunctions obtained from viscous linear stability theory including threedimensional… CONTINUE READING

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#### References

##### Publications referenced by this paper.

SHOWING 1-10 OF 14 REFERENCES

## Boundary conditions for direct computation of aerodynamic sound generation

VIEW 10 EXCERPTS

HIGHLY INFLUENTIAL

## Sound generation in a mixing layer

VIEW 10 EXCERPTS

HIGHLY INFLUENTIAL

## Computational Fluid Dynamics

VIEW 1 EXCERPT

## On the identification of a vortex

VIEW 1 EXCERPT