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Pulsating instability in rich hydrogen/Air counterflow flames
C. J. Sung,
C. K. Law
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Dive into the research topics of 'Pulsating instability in rich hydrogen/Air counterflow flames'. Together they form a unique fingerprint.
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Keyphrases
Counterflow Flame
100%
Strain Rate
100%
Hydrogen-air
100%
Pulsating Instability
100%
Pulsation
100%
Lewis number
66%
Extinction Limit
66%
Value-based
33%
Quasi-steady
33%
Steady State
33%
Rich Mixture
33%
Flame Temperature
33%
Oscillation
33%
Extinction Strain Rate
33%
Equivalence Ratio
33%
Detailed Chemistry
33%
Radiative Heat Loss
33%
Mode Change
33%
Unsteady Flames
33%
Pulsating Flames
33%
Critical Strain
33%
Period Doubling
33%
Flammable Range
33%
Small Strain
33%
Pulsation Modes
33%
Oscillation Period
33%
Propagation Mode
33%
Steady Burning
33%
Engineering
Strain Rate
100%
Lewis Number
40%
One Dimensional
20%
Diffusive
20%
Flame Temperature
20%
Rich Mixture
20%
Equivalence Ratio
20%
Critical Strain
20%
Radiative Heat Loss
20%
Propagating Mode
20%
Major Factor
20%
Physics
Strain Rate
100%
Lewis Number
40%
Steady State
20%
Period Doubling
20%
Flame Temperature
20%
Pulsation Modes
20%