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Leading edge dynamics of lean premixed flames stabilized on a bluff body
Dan Michaels, Ahmed F. Ghoniem
Research output
:
Contribution to journal
›
Article
›
peer-review
11
Scopus citations
Overview
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Dive into the research topics of 'Leading edge dynamics of lean premixed flames stabilized on a bluff body'. Together they form a unique fingerprint.
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Physics
Harmonics
100%
Premixed Flame
100%
Methane
50%
Steady State
50%
Detonation
50%
Advection
50%
Acoustic Instability
50%
Shear Layer
50%
Wrinkling
50%
Engineering
Premixed Flame
100%
Leading Edge
100%
Heat Release
42%
Harmonics
28%
Vortex
28%
Two Dimensional
14%
Equivalence Ratio
14%
Ignition
14%
Thermoacoustic Instability
14%
Advection
14%
Shear Layer
14%
Inlet Velocity
14%
Wrinkling (Flame)
14%
Recirculating Wake
14%
Acoustic Oscillation
14%
Edge Location
14%
Anchors
14%
Body Material
14%
CH4
14%
Keyphrases
Edge Dynamics
100%
Shear Layer Vortices
33%
Dynamic Display
33%
Two-dimensional Code
33%
Flame Wrinkles
33%
Material Body
33%
Harmonic Fluctuations
33%
Step Velocity
33%