César J. Deschamps scite author profile

The linear stability of high-Reynolds-number corrugated jets is investigated by solving the compressible Rayleigh equation linearized about the time-averaged flow field. A Floquet ansatz is used to account for periodicity of this base flow in the azimuthal direction. The origin of multiple unstable solutions, which are known to appear in these non-circular configurations, is traced through gradual perturbations of a parametrized base-flow profile. It is shown that all unstable modes are corrugated jet continuations of the classical Kelvin–Helmholtz modes of circular jets, highlighting that the same instability mechanism, modified by corrugations, leads to the growth of disturbances in such flows. It is found that under certain conditions the eigenvalues may form saddles in the complex plane and display axis switching in their eigenfunctions. A parametric study is also conducted to understand how penetration and number of corrugations impact stability. The effect of these geometric properties on growth rates and phase speeds of the multiple unstable modes is explored, and the results provide guidelines for the development of nozzle configurations that more effectively modify the Kelvin–Helmholtz instability.

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Pressure distribution along valve reeds of hermetic compressors

Ferreira

Deschamps

Prata

1989

Experimental Thermal and Fluid Science

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Numerical modeling of startup and shutdown transients in reciprocating compressors

Link

Deschamps

2011

International Journal of Refrigeration

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Application of RANS-based method to predict acoustic noise of chevron nozzles

2014

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A simulation approach for hermetic reciprocating compressors including electrical motor modeling

Dutra

Deschamps

2015

International Journal of Refrigeration

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