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Experiments in Fluids

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01.05.2017 | Research Article

PIV measurements in the near wakes of hollow cylinders with holes

verfasst von: Erhan Firat, Gokturk M. Ozkan, Huseyin Akilli

Erschienen in: Experiments in Fluids | Ausgabe 5/2017

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Abstract

The wake flows behind fixed, hollow, rigid circular cylinders with two rows of holes connecting the front and rear stagnation lines were investigated using particle image velocimetry (PIV) for various combinations of three hole diameters, d = 0.1D, 0.15D, and 0.20D, six hole-to-hole distances, l = 2d, 3d, 4d, 5d, 6d, and 7d, and ten angles of incidence (α), from 0° to 45° in steps of 5°, at a Reynolds number of Re = 6,900. Time-averaged velocity distributions, instantaneous and time-averaged vorticity patterns, time-averaged streamline topology, and hot spots of turbulent kinetic energy occurred through the interaction of shear layers from the models were presented to show how the wake flow was modified by the presence of the self-issuing jets with various momentums emanating from the downstream holes. In general, as hole diameter which is directly related to jet momentum increased, the values of time-averaged wake characteristics (length of time-averaged recirculation region, vortex formation length, length of shear layers, and gap between the shear layers) increased. Irrespective to d and l tested, the values of the vortex formation length of the models are greater than that of the cylinder without hole (reference model). That is, vortex formation process was shifted downstream by aid of jets. It was found that time-averaged wake characteristics were very sensitive to α. As α increased, the variation of these characteristics can be modeled by exponential decay functions. The effect of l on the three-dimensional vortex shedding patterns in the near wake of the models was also discussed.

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Titel: PIV measurements in the near wakes of hollow cylinders with holes
verfasst von: Erhan Firat
Gokturk M. Ozkan
Huseyin Akilli
Publikationsdatum: 01.05.2017
Verlag: Springer Berlin Heidelberg
Erschienen in: Experiments in Fluids / Ausgabe 5/2017
Print ISSN: 0723-4864
Elektronische ISSN: 1432-1114
DOI: https://doi.org/10.1007/s00348-017-2334-x

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