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A computational study on oscillatory extinction of spherical diffusion flames
E. W. Christiansen
, S. D. Tse
,
C. K. Law
Mechanical & Aerospace Engineering
High Meadows Environmental Institute
Princeton Materials Institute
Research output
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Contribution to conference
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Paper
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peer-review
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Dive into the research topics of 'A computational study on oscillatory extinction of spherical diffusion flames'. Together they form a unique fingerprint.
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Engineering
Diffusion Flame
100%
Methane
100%
Oscillatory
100%
Mass Flowrate
50%
Lewis Number
25%
Transients
25%
Oscillatory Instability
25%
Lower Limit
25%
Source Point
25%
Limit Cycle
25%
Oscillatory Behavior
25%
Physics
Methane
100%
Diffusion Flame
100%
Mass Flow Rate
50%
Transients
25%
Point Source
25%
Steady State
25%
Lewis Number
25%
Earth and Planetary Sciences
Methane
100%
Diffusion Flame
100%
Mass Flow Rate
50%
Lewis Number
25%
Biochemistry, Genetics and Molecular Biology
Facilitated Diffusion
100%
Flow Rate
50%
Steady State
25%
Keyphrases
Methane Diffusion
25%