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Ambiguity in mean-flow-based linear analysis

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arxiv 2005.05703 v2 pith:34XUH2WL submitted 2020-05-12 physics.flu-dyn

Ambiguity in mean-flow-based linear analysis

classification physics.flu-dyn
keywords variablesanalysisequationslinearlinearisationoperatorresolventdifferences
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Linearisation of the Navier-Stokes equations about the mean of a turbulent flow forms the foundation of popular models for energy amplification and coherent structures, including resolvent analysis. While the Navier-Stokes equations can be equivalently written using many different sets of dependent variables, we show that the properties of the linear operator obtained via linearisation about the mean depend on the variables in which the equations are written prior to linearisation. For example, we show that using primitive and conservative variables leads to differences in the singular values and modes of the resolvent operator for turbulent jets, and that the differences become more severe as variable-density effects increase. This lack of uniqueness of mean-flow-based linear analysis provides new opportunities for optimizing models by specific choice of variables while also highlighting the importance of carefully accounting for the nonlinear terms that act as a forcing on the resolvent operator.

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