EFFECT OF CONTROLLED PULSATION ON AXISYMMETRIC JET BEHAVIOR

Axisymmetric jets have been observed to investigate the effect of controlled pulsation on the behavior of vortex rings by using the hydrogen bubble technique and hot-film measurement. Pulsed jets had similar velocity profiles in the initial region and in the fully developed region. This similar velo...

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Bibliographic Details
Published inJOURNAL OF CHEMICAL ENGINEERING OF JAPAN Vol. 20; no. 2; pp. 128 - 133
Main Authors SENO, TADACHIKA, KAGEYAMA, SHIZUO, ITO, RYUZO
Format Journal Article
LanguageEnglish
Published Tokyo The Society of Chemical Engineers, Japan 1987
Society of Chemical Engineers
Taylor & Francis Group
Subjects
Axisymmetric Jet
Eddy Reynolds Number
Exact sciences and technology
Fluid dynamics
Fluid Mechanics
Free Shear Layer
Fundamental areas of phenomenology (including applications)
Hydrogen Bubble Method
Nonhomogeneous flows
Physics
Strouhal Number
Vortex Ring
Ring vortex
Experimental study
Interaction
Axially symmetric jet
Pulse
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Summary:Axisymmetric jets have been observed to investigate the effect of controlled pulsation on the behavior of vortex rings by using the hydrogen bubble technique and hot-film measurement. Pulsed jets had similar velocity profiles in the initial region and in the fully developed region. This similar velocity profile was coincident with that in natural jets. The differences between the two kinds of jets in volume rate, in decay of centerline velocity and in distribution of turbulent intensity, were observed to be remarkable in the initial region. Such differences were caused by the different behavior of vortex rings in the initial region. Behavior of vortex rings in the initial region of pulsed jets was roughly classified into three types by Strouhal number, Sr0 (Sr0 〈 0.9, 0.9 ≤ Sr0 〈 2.6, Sr0 ≥ 2.6). It was found that the pulsation for Sr0 = 0.3 was the most dispersive wave in a jet column.
ISSN:0021-9592
1881-1299
DOI:10.1252/jcej.20.128