Dual-plane PIV technique to determine the complete velocity gradient tensor in a turbulent boundary layer
Dual-plane PIV technique to determine the complete velocity gradient tensor in a turbulent boundary layer
Simultaneous dual-plane PIV experiments, which utilized three cameras to measure velocity components in two differentially separated planes, were performed in streamwise-spanwise planes in the log region of a turbulent boundary layer at a moderate Reynolds number (Re 1100). Stereoscopic data were obtained in one plane with two cameras, and standard PIV data were obtained in the other with a single camera. The scattered light from the two planes was separated onto respective cameras by using orthogonal polarizations. The acquired datasets were used in tandem with continuity to compute all 9 velocity gradients, the complete vorticity vector and other invariant quantities. These derived quantities were employed to analyze and interpret the structural characteristics and features of the boundary layer. Sample results of the vorticity vector are consistent with the presence of hairpin-shaped vortices inclined downstream along the streamwise direction. These vortices envelop low speed zones and generate Reynolds shear stress that enhances turbulence production. Computation of inclination angles of individual eddy cores using the vorticity vector suggests that the most probable inclination angle is 35° to the streamwise-spanwise plane with a resulting projected eddy inclination of 43° in the streamwise-wall-normal plane.
222-231
Ganapathisubramani, Bharathram
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Longmire, Ellen K.
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Marusic, Ivan
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Pothos, Stamatios
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August 2005
Ganapathisubramani, Bharathram
5e69099f-2f39-4fdd-8a85-3ac906827052
Longmire, Ellen K.
d6b212c3-0640-4f27-9375-9fee7cf95c1b
Marusic, Ivan
e8863dbc-d29e-4087-9269-ea1ef1d63f48
Pothos, Stamatios
ab655a74-734d-4337-b59b-bfc21cb61a8f
Ganapathisubramani, Bharathram, Longmire, Ellen K., Marusic, Ivan and Pothos, Stamatios
(2005)
Dual-plane PIV technique to determine the complete velocity gradient tensor in a turbulent boundary layer.
Experiments in Fluids, 39 (2), .
(doi:10.1007/s00348-005-1019-z).
Abstract
Simultaneous dual-plane PIV experiments, which utilized three cameras to measure velocity components in two differentially separated planes, were performed in streamwise-spanwise planes in the log region of a turbulent boundary layer at a moderate Reynolds number (Re 1100). Stereoscopic data were obtained in one plane with two cameras, and standard PIV data were obtained in the other with a single camera. The scattered light from the two planes was separated onto respective cameras by using orthogonal polarizations. The acquired datasets were used in tandem with continuity to compute all 9 velocity gradients, the complete vorticity vector and other invariant quantities. These derived quantities were employed to analyze and interpret the structural characteristics and features of the boundary layer. Sample results of the vorticity vector are consistent with the presence of hairpin-shaped vortices inclined downstream along the streamwise direction. These vortices envelop low speed zones and generate Reynolds shear stress that enhances turbulence production. Computation of inclination angles of individual eddy cores using the vorticity vector suggests that the most probable inclination angle is 35° to the streamwise-spanwise plane with a resulting projected eddy inclination of 43° in the streamwise-wall-normal plane.
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Published date: August 2005
Organisations:
Aerodynamics & Flight Mechanics
Identifiers
Local EPrints ID: 187399
URI: http://eprints.soton.ac.uk/id/eprint/187399
ISSN: 0723-4864
PURE UUID: 2e9330d1-98d0-4751-918d-8408b2f35fd5
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Date deposited: 01 Jun 2011 10:32
Last modified: 15 Mar 2024 03:37
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Author:
Ellen K. Longmire
Author:
Ivan Marusic
Author:
Stamatios Pothos
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