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Journal Articles Physics of Fluids Year : 2014

Turbulent flow in rib-roughened channel under the effect of Coriolis and rotational buoyancy forces

Abstract

The turbulent flow inside a rotating channel provided with transverse ribs along one wall is studied by means of two-dimensional time-resolved particle image ve- locimetry. The measurement set-up is mounted on the same rotating disk with the test section, allowing to obtain the same accuracy and resolution as in a non-rotating rig. The Reynolds number is 15 000, and the rotation number is 0.38. As the ribbed wall is heated, both the Coriolis force and the centrifugal force play a role in the fluid dynamics. The mean velocity fields highlight the major impact of the rotational buoyancy (characterized by a buoyancy number of 0.31) on the flow along the lead- ing side of the duct. In particular, since the flow is directed radially outward, the near-wall layers experience significant centripetal buoyancy. The recirculation area behind the obstacles is enlarged to the point of spanning the whole inter-rib space. Also the turbulent fluctuations are significantly altered, and overall augmented, with respect to the non-buoyant case, resulting in higher turbulence levels far from the rib. On the other hand the centrifugal force has little or no impact on the flow along the trailing wall. Vortex identification, proper orthogonal decomposition, and two-point correlations are used to highlight rotational effects, and in particular to determine the dominant scales of the turbulent unsteady flow, the time-dependent behavior of the shear layer and of the recirculation bubble behind the wall-mounted obstacles, the lifetime and advection velocity of the coherent structures.
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Dates and versions

hal-03520690 , version 1 (11-01-2022)

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Filippo Coletti, David Lo Jacono, Irene Cresci, Tony Arts. Turbulent flow in rib-roughened channel under the effect of Coriolis and rotational buoyancy forces. Physics of Fluids, 2014, 26, pp.0. ⟨10.1063/1.4871019⟩. ⟨hal-03520690⟩
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