Keyphrases
In Situ
100%
Helium
100%
Counterflow Flame
100%
Ignition
100%
Methane-oxygen
100%
S-curve
100%
Nanosecond Discharge
100%
Direct Ignition
100%
O2 Concentration
75%
Reaction Zone
50%
Emission Intensity
50%
OH Emission
50%
Low Temperature
25%
Diffusion Flame
25%
Branching Ratio
25%
Flame Combustion
25%
Oxidizer
25%
Maximum Temperature
25%
Electron Impact Ionization
25%
Well-defined
25%
Chemical Kinetics
25%
Counterflow Diffusion Flame
25%
Ignition Characteristics
25%
Ignition Enhancement
25%
Burner
25%
Temperature Profile
25%
Numerical Modeling
25%
Flame Extinction
25%
Electric Field Intensity
25%
Flame Regime
25%
Low Temperature Ignition
25%
Chemical Kinetic Model
25%
Flame Interaction
25%
Plasma-assisted Combustion
25%
Kinetic Effects
25%
Combustion System
25%
Atomic Oxygen
25%
Non-equilibrium Plasma
25%
Radical Production
25%
Kinetic Pathways
25%
Local Maxima
25%
Constant Electric Field
25%
Fuel Oxidation
25%
Boltzmann Equation
25%
Nozzle
25%
Flame Stabilization Mechanism
25%
Direct Coupling
25%
Rayleigh Scattering
25%
Abrupt Change
25%
Mole Fraction
25%
Reaction Path Analysis
25%
Scattering Techniques
25%
He Diffusion
25%
Extinction Characteristics
25%
Plasma Flame
25%
Active Species
25%
Nozzle Exit
25%
Uniform Discharge
25%
Porous Metal Electrode
25%
Constant Strain Rate
25%
Plasma Region
25%
Physics
Methane
100%
Diffusion Flame
100%
Reaction Kinetics
100%
Electric Fields
50%
Temperature Profile
50%
Nonequilibrium plasmas
50%
Combustion System
50%
Strain Rate
50%
Detonation
50%
Boltzmann Equation
50%
Rayleigh Scattering
50%
Ignition Temperature
50%
Engineering
Ignition
100%
Methane
100%
Nanosecond
100%
Low-Temperature
25%
Diffusion Flame
25%
Reaction Zone
25%
Emission Intensity
25%
Rate Constant
12%
Oxidizer
12%
Maximum Temperature
12%
Impact Ionization
12%
Boltzmann Equation
12%
Strain Rate
12%
Nonequilibrium
12%
Numerical Modeling
12%
Kinetic Model
12%
Field Intensity
12%
Branching Ratio
12%
Temperature Profile
12%
Mole Fraction
12%
Constant Electric Field
12%
Porous Metal
12%
Nozzle Exit
12%