Article Dans Une Revue Physical Review Fluids Année : 2024

Revisiting Taylor's hypothesis in homogeneous turbulent shear flow

Kai Schneider

Résumé

Taylor’s hypothesis of frozen flow is revisited in homogeneous turbulent shear flow by examining the cancellation properties of Eulerian and convective accelerations at different flow scales. Using results of direct numerical simulations, vector-valued flow quantities,including the Lagrangian, Eulerian, and convective accelerations, are decomposed into an orthogonal wavelet series and their alignment properties are quantified through the introduction of scale-dependent geometrical statistics. Joint-probability density functions of the Eulerian and convective accelerations show antialignment at small scales of the turbulent motion, but this observation does not hold at large scales. Similarly, the angles of the scale-wise contributions of the Eulerian and convective accelerations were found to prefer an antiparallel orientation at small scales. Such antialignment, however, is not observed at the largest scales of the turbulent motion. The results suggest that Taylor’s hypothesis holds at small scales of homogeneous turbulent shear flow, but not for large-scale motion. The Corrsin scale is proposed as a measure for the applicability of Taylor’s hypothesis in such flows.
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hal-04596843 , version 1 (10-02-2025)

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Frank Jacobitz, Kai Schneider. Revisiting Taylor's hypothesis in homogeneous turbulent shear flow. Physical Review Fluids, 2024, 9 (4), pp.044602. ⟨10.1103/PhysRevFluids.9.044602⟩. ⟨hal-04596843⟩
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