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Structure function tensor equations in inhomogeneous turbulence

Davide Gatti, Alessandro Chiarini, A. Cimarelli, Maurizio Quadrio

2020Journal of Fluid Mechanics39 citationsDOIOpen Access PDF

Abstract

Exact budget equations for the second-order structure function tensor u i u j , where u i is the difference of the ith fluctuating velocity component between two points, are used to study the two-point statistics of velocity fluctuations in inhomogeneous turbulence. The anisotropic generalised Kolmogorov equations (AGKE) describe the production, transport, redistribution and dissipation of every Reynolds stress component occurring simultaneously among different scales and in space, i.e. along directions of statistical inhomogeneity. The AGKE are effective to study the inter-component and multi-scale processes of turbulence. In contrast to more classic approaches, such as those based on the spectral decomposition of the velocity field, the AGKE provide a natural definition of scales in the inhomogeneous directions, and describe fluxes across such scales too. Compared to the generalised Kolmogorov equation, which is recovered as their half-trace, the AGKE can describe inter-component energy transfers occurring via the pressure-strain term and contain also budget equations for the off-diagonal components of u i u j . The non-trivial physical interpretation of the AGKE terms is demonstrated with three examples. First, the near-wall cycle of a turbulent channel flow at a friction Reynolds number of Re = 200 is considered. The off-diagonal component -uv , which cannot be interpreted in terms of scale energy, is discussed in detail. Wall-normal scales in the outer turbulence cycle are then discussed by applying the AGKE to channel flows at Re = 500 and 1000. In a third example, the AGKE are computed for a separating and reattaching flow. The process of spanwise-vortex formation in the reverse boundary layer within the separation bubble is discussed for the first time.

Topics & Concepts

TurbulenceTensor (intrinsic definition)Function (biology)K-omega turbulence modelTurbulence modelingMechanicsStatistical physicsPhysicsK-epsilon turbulence modelClassical mechanicsMathematicsGeometryBiologyEvolutionary biologyFluid Dynamics and Turbulent FlowsPlant Water Relations and Carbon DynamicsWind and Air Flow Studies