V. Gentile scite author profile

V. Gentile

5Publications

100Citation Statements Received

66Citation Statements Given

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Delft University of Technology

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Low-frequency behavior of the turbulent axisymmetric near-wake

Gentile

Schrijer

Oudheusden

et al. 2016

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The turbulent wake past an axisymmetric body is investigated with time-resolved stereoscopic particle image velocimetry (PIV) at a Reynolds number ReD = 6.7 × 104 based on the object diameter. The azimuthal organization of the near-wake is studied at different locations downstream of the trailing edge. The time-averaged velocity field features a circular shear layer bounding a region of recirculating flow. Inspection of instantaneous PIV snapshots reveals azimuthal meandering of the reverse flow region with a significant radial offset with respect to the time-averaged position. The backflow meandering appears as the major contribution to the near-wake dynamics in proximity of the base, whereas closer to the rear-stagnation point, the shear layer fluctuations become important. For x/D ≤ 0.75, the time-history and probability distributions of the backflow centroid position allow to identify this motion with an irregular precession about the model symmetry axis occurring at time scales in the order of 103 D/U∞ or higher. The first two modes obtained by snapshot proper orthogonal decomposition of the velocity fluctuations can be related to an anti-symmetric mode of azimuthal wave-number m = 1 reflecting a radial displacement of the separated flow region, while the third and fourth proper orthogonal decomposition modes are identified with a second mode pair m = 2 and are representing wake ovalization. Close to the base, a third axisymmetric mode m = 0 is identified, corresponding to a streamwise pulsation of the reverse flow region. Based on the analysis of the spatial eigen-functions and frequency spectra of the time-coefficients, it is concluded that the anti-symmetric mode m = 1 is associated with the backflow instability in the very-low frequency range StD = 10−4/10−3 close to separation, whereas more downstream it reflects the fluctuations related to the shear layer development.

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The effect of angular misalignment on low-frequency axisymmetric wake instability

et al. 2017

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The effect of angular misalignment on the low-frequency dynamics of the near wake of a blunt-based axisymmetric body is investigated at a Reynolds number of $Re=67\,000$. While for axisymmetric boundary conditions all azimuthal orientations of the wake are explored with equal probability, resulting in a statistical axisymmetry, an angular offset as small as $0.2^{\circ }$ is found to suppress the low-frequency large-scale behaviour that is associated with the erratic meandering of the region of reversed flow. As a result of the misalignment, the centroid of this backflow region is displaced from the model axis and remains confined around an average off-centre position. Spectral and modal analysis provides evidence that the erratic backflow behaviour occurs within a narrow angular range of deviations from axisymmetric conditions.

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Afterbody Effects on Axisymmetric Base Flows

et al. 2016

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Organization of an Axisymmetric Turbulent Wake in Presence of a Central Protrusion

Gentile

Schrijer

Oudheusden

et al. 2016

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Afterbody Effects on Axisymmetric Base Flows

Gentile

Schrijer

Oudheusden

et al. 2015

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V. Gentile

Low-frequency behavior of the turbulent axisymmetric near-wake

The effect of angular misalignment on low-frequency axisymmetric wake instability

Afterbody Effects on Axisymmetric Base Flows

Organization of an Axisymmetric Turbulent Wake in Presence of a Central Protrusion

Afterbody Effects on Axisymmetric Base Flows

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