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Vorticity measurement by a pressure probe

Published online by Cambridge University Press:  04 July 2016

M. M. Freestone
M. M. Freestone*
Affiliation:
Department of Aeronautics, The City University, London
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Summary

An analysis is presented of the output of a pressure probe, comprised essentially of four yawmeters, which was designed to yield vorticity information.

It is shown that if the probe is utilised in flows which have vorticity dominated by variation of either the direction or the magnitude of the velocity then the probe output may be easily related to vorticity. It is argued that such flows should be readily recognised, and they include many situations of interest involving vortex flows, boundary layers and wakes.

Earlier work had already demonstrated that the probe is useful in exploring regions of predominantly streamwise vorticity. The present work shows a result with the probe used in a boundary layer flow where the vorticity is nearly normal to the local flow.

Use of the probe in unsteady flow is briefly examined.

Type
Research Article
Information
The Aeronautical Journal , Volume 92 , Issue 911 , January 1988 , pp. 29 - 35
Copyright
Copyright © Royal Aeronautical Society 1988 

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References

1. Freestone, M. M. Approximate measurement of streamwise vorticity in aeronautical flows by a simple pressure probe. In: ‘Developments in Measurements and Instrumentation in En gineering’, Institution of Mechanical Engineers, London, 1985, 18.Google Scholar
2. Bryer, D. W. and Pankhurst, R. C. Pressure-probe methods for determining wind speed and flow direction. National Physical Laboratory. Her Majesty's Stationery Office, 1971.Google Scholar
3. Lloyd, A. R. J. M. and Hanson, P. J. Decay of trailing vortices. Report AMTE(H) R85218, Admiralty Research Establishment, 1985.Google Scholar
4. Lloyd, A. R. J. M. and Campbell, I. F. Experiments to investigate vortices shed from a submarine-like body of revolution. In: ‘Aerodynamics and related hydrodynamic studies using water facilities’, AGARD Conference Proceedings, 1986, CP-413, 33.133.21.Google Scholar
5. Kovasznay, L. S. G. Turbulence Measurements. In: Ladenburg, R. W. et al.(eds), High Speed Aerodynamics and Jet Propulsion. Vol 9. Physical Measurements in Gas Dynamics and Combustion., Princeton University Press, Princeton, NJ, 1954, 213283.Google Scholar
6. Kastrinakis, E. G., Eckelmann, H. and Willmarth, W. W. Influence of the flow velocity on a Kovasznay type vorticity probe. Rev Sci Instrum, 1979, 50(6), 759767.Google Scholar
7. Gibson, J. An experimental investigation of the pressure probe method for determining vorticity. Undergraduate project report: No Aero 376 Dept of Aeronautics, The City University, 1984 (Unpublished).Google Scholar
8. Gumley, S. J. Tubing systems for pneumatic averaging of fluctuating pressures, J Wind Eng Ind Aerodyn, 1983, 12, 189228.Google Scholar