Phase‐locked eduction of vortex shedding in flow past an inclined flat plate

Flow past an inclined flat plate at an angle of attack of 30° and a Reynolds number of 30 000 is investigated experimentally. The velocity field in the wake is measured with a laser doppler anemometer (LDA) in the region from one plate breadth downstream to three and a half‐plate breadths downstream. Controlled forcing is applied to the wake by vibrating the plate in the across‐wind direction at a frequency in the middle of the lock‐in range. The forcing serves to enhance the regularity and two‐dimensionality of vortex shedding from the plate. It also facilitates phase‐locked averaging of the LDA data. The LDA bursts are sorted according to their arrival instants relative to a particular phase of the vortex shedding cycles. The phase‐averaged velocity results reveal large‐scale vortical structures in the wake. Dynamical properties of these structures such as coherent vorticity and Reynolds stress production are discussed. The wake is found to be strongly asymmetric. The flow dynamics in the wake are dominated by a train of counterclockwise vortices shed from the trailing edge of the plate. The development, shedding and subsequent convection of these vortices are studied by following the consecutive phases of the shedding cycle.

[1]  B. Cantwell,et al.  An experimental study of entrainment and transport in the turbulent near wake of a circular cylinder , 1983, Journal of Fluid Mechanics.

[2]  J. R. Calvert,et al.  Experiments on the flow past an inclined disk , 1967, Journal of Fluid Mechanics.

[3]  C. Knisely STROUHAL NUMBERS OF RECTANGULAR CYLINDERS AT INCIDENCE: A REVIEW AND NEW DATA , 1990 .

[4]  Jing Li,et al.  Numerical study of an oscillating cylinder in uniform flow and in the wake of an upstream cylinder , 1992, Journal of Fluid Mechanics.

[5]  L. J. S. Bradbury,et al.  Measurements with a pulsed-wire and a hot-wire anemometer in the highly turbulent wake of a normal flat plate , 1976, Journal of Fluid Mechanics.

[6]  A. Perry,et al.  Large-scale vortex structures in turbulent wakes behind bluff bodies. Part 1. Vortex formation processes , 1987, Journal of Fluid Mechanics.

[7]  Turgut Sarpkaya,et al.  An inviscid model of two-dimensional vortex shedding for transient and asymptotically steady separated flow over an inclined plate , 1975, Journal of Fluid Mechanics.

[8]  K. Lam,et al.  Wake and wake-induced shear-layer excitation in an annular jet , 1986 .

[9]  Convection velocity measurements in a cylinder wake , 1992 .

[10]  F. C. Johansen,et al.  On the Flow of Air behind an Inclined Flat Plate of Infinite Span , 1927 .

[11]  A. Leder Dynamics of fluid mixing in separated flows , 1991 .

[12]  L. W. Carr,et al.  Water Tunnel Visualizations of Dynamic Stall , 1979 .

[13]  A. Hussain Coherent structures—reality and myth , 1983 .