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    This article has been cited by the following publications. This list is generated based on data provided by CrossRef.
    Xia, X. and Mohseni, K. 2015. Far-field momentum flux of high-frequency axisymmetric synthetic jets. Physics of Fluids, Vol. 27, Issue. 11, p. 115101.
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    Lasagna, D Orazi, M and Iuso, G 2014. Streamwise vortices originating from synthetic jet–turbulent boundary layer interaction. Fluid Dynamics Research, Vol. 46, Issue. 1, p. 015501.
    Van Buren, Tyler Leong, Chia M. and Amitay, Michael 2014. Interaction of a Finite Span Synthetic Jet with a Laminar Boundary Layer: Effect of Jet Geometry and Orientation.
    Zhong, Shan and Zhang, Shanying 2013. Further Examination of the Mechanism of Round Synthetic Jets in Delaying Turbulent Flow Separation. Flow, Turbulence and Combustion, Vol. 91, Issue. 1, p. 177.
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    Zhang, Shanying and Zhong, Shan 2011. Turbulent Flow Separation Control over a Two-Dimensional Ramp Using Synthetic Jets. AIAA Journal, Vol. 49, Issue. 12, p. 2637.
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    Zhang, Shanying and Zhong, Shan 2010. Experimental Investigation of Flow Separation Control Using an Array of Synthetic Jets. AIAA Journal, Vol. 48, Issue. 3, p. 611.
    Jabbal, M. and Zhong, S. 2008. The near wall effect of synthetic jets in a boundary layer. International Journal of Heat and Fluid Flow, Vol. 29, Issue. 1, p. 119.
    Guo, F. and Zhong, S. 2007. A PIV investigation of the characteristics of micro-scale synthetic jets. The Aeronautical Journal, Vol. 111, Issue. 1122, p. 519.
    Mehta, R C 2007. Analytical solution for venting from a time-dependent cavity volume. Proceedings of the Institution of Mechanical Engineers, Part G: Journal of Aerospace Engineering, Vol. 221, Issue. 3, p. 327.
    Tang, Hui Zhong, Shan Jabbal, Mark Garcillan, Luis Guo, Fushui Wood, Norman and Warsop, Clyde 2007. Towards the Design of Synthetic-jet Actuators for Full-scale Flight Conditions. Flow, Turbulence and Combustion, Vol. 78, Issue. 3-4, p. 309.
    Zhong, Shan Jabbal, Mark Tang, Hui Garcillan, Luis Guo, Fushui Wood, Norman and Warsop, Clyde 2007. Towards the Design of Synthetic-jet Actuators for Full-scale Flight Conditions. Flow, Turbulence and Combustion, Vol. 78, Issue. 3-4, p. 283.
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The performance of round synthetic jets in quiescent flow

  • M. Jabbal (a1), J. Wu (a1) and S. Zhong (a1)
Abstract

PIV measurements in the near-field region of a jet flow emanating from a round synthetic jet actuator into quiescent air were conducted over a range of operating conditions. The primary purpose of this work was to investigate the nature of synthetic jets at different operating conditions and to examine the jet flow parameters that dictate the behaviour of synthetic jet actuators. The effects of varying diaphragm displacement and oscillatory frequency for fixed actuator geometry were studied. It was observed that the characteristics of synthetic jets are largely determined by the Reynolds number and stroke length. An increase in the former is observed to increase the strength of consecutive vortex rings that compose a synthetic jet, whereas an increase in the latter results in an increase in relative vortex ring spacing and for further increases in stroke length, shedding of secondary vortices. Correlations were also made between the operating parameters and the performance parameters most effective for flow control and which therefore determine the impact of a synthetic jet on an external flow. Relations of time-averaged dimensionless mass flux, momentum flux and circulation with the jet flow conditions were established and found to widely support an analytical performance prediction model described in this paper. It is anticipated that the experimental data obtained in this study will also contribute towards providing a PIV database for macro-scale synthetic jet actuators.

Copyright
COPYRIGHT: © Royal Aeronautical Society 2006
References
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The Aeronautical Journal
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