3-D scanning-particle-image-velocimetry: Technique and application to a spherical cap wake flow |
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Authors: | Ch. Brü cker |
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Affiliation: | (1) Aerodynamisches Institut, RWTH Aachen, Templergraben 55, 52062 Aachen, Germany |
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Abstract: | A 3-D time-resolving and whole-volume Digital-Particle-Image-Velocimetry (DPIV) technique based on the concept of a scanning light-sheet is presented and applied here to the 3-D transient wake phenomena in the spherical cap wake flow. The technique uses a scanning light-sheet for rapid sampling of the flow in depth and a two-camera recording system for stereoscopic 3-D DPIV. Application of a correlation technique in combination with a calibration yields, aside from the correct in-plane displacement, also the out of plane component and thus the total velocity vectors within the planes of the scanning light-sheet. With a high scanning rate in comparison to the characteristic time scales the method provides the 3-D velocity field in space and time. Through the use of conventional video-techniques the temporal evolution of the complete velocity and vorticity field can be obtained quantitatively from experiments. This is demonstrated for the 3-D starting flow around a spherical cap at Re=300. During the starting process, the flow in the wake evolves into a spherical vortex ring where the velocity distribution is very close to the theoretical solution of the Hill-type vortex. Later on, the Hill-type vortex ring deforms and the flow changes from a rotational symmetric stage to a planar symmetric flow with a double-threaded vortical structure which consists of two counter-rotating streamwise vortices similar to the ones observed in sphere wake flow.Presented at the EUROMECH Coll. 335, Image Techniques and Analysis in Fluid Dynamics, 5–7 June 1995, Roma, Italy. A version of this paper has been published in Proc. 7th Int. Symp. Flow Visualization (ed. J.P. Crowder), Begell House Inc., New York, 1995, pp. 715–720. |
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Keywords: | 3-D PIV scanning light sheet spherical cap wake sphere wake Hill-vortex transitional flow |
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