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Counterflow diffusion flames with unsteady strain rates
H. G. Im
, J. K. Bechtold
,
C. K. Law
Mechanical & Aerospace Engineering
High Meadows Environmental Institute
Princeton Materials Institute
Research output
:
Contribution to conference
›
Paper
›
peer-review
3
Scopus citations
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Keyphrases
Counterflow Diffusion Flame
100%
Strain Rate
100%
Unsteady Strain Rate
100%
Quasi-steady
66%
Flamelet
66%
Laminar Flamelet
66%
Eddy Scales
66%
Lewis number
33%
Turbulent Flow
33%
Reaction Zone
33%
Flame Structure
33%
Further Analysis
33%
Rate of Increase
33%
Eddies
33%
Large Activation Energy Asymptotics
33%
Flame Regime
33%
Turbulent Eddies
33%
Turbulent Combustion Regime
33%
Zeldovich
33%
Constant Density
33%
Physical Interpretation
33%
Self-similar Solutions
33%
Zone Structure
33%
Unsteady Effects
33%
Extinction Condition
33%
Unsteadiness
33%
Applicable Range
33%
Coupling Functions
33%
Effective Strain
33%
Varying Strain Rate
33%
Convective-diffusive
33%
Engineering
Diffusion Flame
100%
Strain Rate
100%
Flamelets
80%
Diffusive
40%
Scale Eddy
40%
Activation Energy
20%
Lewis Number
20%
Convective
20%
Turbulent Flow
20%
Reaction Zone
20%
One Step
20%
Function of Time
20%
Characteristic Time
20%
Constant Density
20%
Effective Strain Rate
20%
Strain Rate Increase
20%