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Effects of nozzle body on jet noise
J. Bridges,
F. Hussain
Research Institute
Houston Methodist
Research output
:
Contribution to journal
›
Article
›
peer-review
13
Scopus citations
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Dive into the research topics of 'Effects of nozzle body on jet noise'. Together they form a unique fingerprint.
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Keyphrases
Jet Noise
100%
Dipole
100%
Nozzle
100%
Quadrupole
75%
Vortex Ring
75%
Directivity
50%
Sound Field
50%
Nozzle Shape
50%
Sound Source
50%
Vortex Sound Theory
50%
Nozzle Geometry
50%
Monopole
25%
Negligible Effects
25%
Relative Strength
25%
Vortex Pair
25%
Turbulence
25%
Jet Nozzle
25%
Vortex
25%
Subharmonics
25%
Nozzle Size
25%
Solid Surface
25%
Free Stream
25%
Dominant Sounds
25%
Surface Dipole
25%
Low Mach number
25%
Biot-Savart
25%
Flat Plate
25%
Coplanar
25%
Subharmonic Frequency
25%
Frequency of Occurrence
25%
Phase Averaging
25%
Vorticity Field
25%
Vortex Motion
25%
Physics
Quadrupole
100%
Vortex Ring
100%
Directivity
66%
Sound Field
66%
Nozzle Geometry
66%
Mach Number
33%
Flat Plate
33%
Vorticity
33%
Solid Surface
33%
Multipole
33%
Engineering
Vortex
100%
Sound Source
25%
Directivity
25%
Sound Field
25%
Relative Strength
12%
Jet Nozzle
12%
Negligible Effect
12%
Good Agreement
12%
Flat Plate
12%
Low Mach Number
12%
Simple Model
12%
Vorticity
12%