The particle tracking flow visualization method (PTFV) and particle image velocimetry
(PIV) are used to obtain a clear picture of vortex evolution on the suction
surface of an impulsively started NACA 0012 wing. The experiments are conducted
in a towing water tank. The formation, evolution, and shedding of the vortex system
on the suction surface are observed and analysed by streak pictures of particle
images. Five characteristic vortex evolution regimes are identified in the parameter
domain of angle of attack and chord Reynolds number. The pathline patterns,
instantaneous streamlines, and vorticity of various vortex evolution processes are
presented. Stable vortex shedding in the wake is eventually established after the initial
period of complex vortex evolution on the suction surface of the wing. Various types
of instabilities in the wake, e.g. instability wave, surface vortex shedding, and bluff-body
vortex shedding, are found to correspond to different evolution processes of the
surface flow. The shedding frequency of the vortices is correlated and compared with
several conventional results. Topological critical points, separatrices, and alleyways
are identified and discussed to elucidate the unsteady structure of the instantaneous
streamline patterns. The topological rule for the number of singular points is verified.
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