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Dynamics and extinction of non-adiabatic particle-laden premixed flames
Yiguang Ju
,
Chung King Law
Mechanical & Aerospace Engineering
High Meadows Environmental Institute
Princeton Materials Institute
Research output
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Contribution to journal
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Conference article
›
peer-review
11
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Dive into the research topics of 'Dynamics and extinction of non-adiabatic particle-laden premixed flames'. Together they form a unique fingerprint.
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Keyphrases
Premixed Flame
100%
Non-adiabatic
100%
Particle-laden
100%
Gas-particle
100%
Radiative Heat Loss
75%
Particle Concentration
50%
Flame Speed
50%
Flame Extinction
50%
Flame Regime
50%
Particle Velocity
50%
Velocity Lag
50%
Numerical Results
25%
Hydrogen Peroxide
25%
Particle Size
25%
Numerical Calculation
25%
Extinction Limit
25%
Analytical Expression
25%
Analytical Results
25%
Small Particles
25%
Flammability Limits
25%
Classical Theory
25%
Multiple Flames
25%
Heat Conduction
25%
Particle-free
25%
Fast Flame
25%
Small Particle Size
25%
Existence of multiple Solutions
25%
Joint Effect
25%
Intrinsic Features
25%
Particle Radiation
25%
Diluent Gas
25%
Conduction Heat Transfer
25%
Large Particle Size
25%
Transfer Heat
25%
Inert Particles
25%
Free Flames
25%
Physics
Flame Speed
100%
Premixed Flame
100%
Methane
50%
Conductive Heat Transfer
50%
Thermal Radiation
50%
Larger Particle
50%
Chemical Engineering
Heat Conduction
100%
Methane
50%
Engineering
Show Effect
50%