Engineering
Ignition
100%
Low-Temperature
95%
Methane
61%
Premixed Flame
60%
Diffusion Flame
53%
Kinetic Model
41%
Air Mixture
40%
Equivalence Ratio
38%
Elevated Pressure
37%
Lewis Number
32%
Computer Simulation
30%
Flame Propagation
30%
Autoignition
27%
Heptane
25%
Nonequilibrium
22%
Nanosecond
22%
Dilution
19%
Experimental Result
18%
Heat Losses
18%
Ignition Delay
16%
Mesoscale
16%
Strain Rate
15%
Flow Reactor
15%
One Dimensional
14%
Energy Engineering
14%
Flame Temperature
14%
Transition to Detonation
13%
Delay Time
13%
Temperature Coefficient
13%
Alkane
13%
Deflagration
13%
Mole Fraction
12%
Intermediate Temperature
11%
Kinetic Study
11%
Atmospheric Pressure
11%
Planar Laser-Induced Fluorescence
11%
Good Agreement
11%
Elevated Temperature
10%
Combustion Property
10%
Microchannel
10%
Reactant
10%
Fossil Fuel
10%
Numerical Study
10%
Experimental Measurement
9%
Chemical Mechanism
9%
Burning Rate
9%
Model Prediction
9%
Microscale
9%
Direct Numerical Simulation
9%
Radiative Heat Loss
9%
Damkhler Number
9%
Mixing Layer
9%
Fuel Concentration
9%
Flame Front
8%
Combined Effect
8%
Heat Release
8%
Elementary Reaction
8%
Characteristic Time
8%
Oxygen Concentration
8%
Two Dimensional
8%
Flow Velocity
8%
Atmospheric Flow
7%
Isooctane
7%
Experimental Investigation
7%
Numerical Modeling
7%
Syngas
6%
Propagation Speed
6%
Rate Constant
6%
Combustion Modeling
6%
Branching Ratio
6%
Gas-Phase
6%
Temperature Range
6%
Counterflow Configuration
6%
Branching Reaction
6%
Aromatics
6%
Burned Gas
6%
Ignition Temperature
6%
Temperature Plasma
6%
Model Reduction
5%
Flamelets
5%
Antiknock Rating
5%
Oxidizer
5%
Combustion
5%
Quasi Steady State
5%
Numerical Calculation
5%
Adiabatic Flame Temperature
5%
Flame Propagation Speed
5%
Computational Efficiency
5%
Dielectrics
5%
Heat Release Rate
5%
Aviation Fuels
5%
Alternative Fuel
5%
Multistage
5%
Oscillatory
5%
Concentration Gradient
5%
N-Heptane
5%
Thermal Radiation
5%
Torr
5%
Critical Radius
5%
Number Density
5%
Keyphrases
Cool Flame
35%
High Pressure
26%
Dimethyl Ether
23%
Ignition
22%
Low Temperature
20%
Premixed Flame
19%
Flame Speed
19%
Jet-stirred Reactor
17%
Faraday Rotation Spectroscopy
16%
Extinction Limit
16%
Elevated Pressure
15%
Diffusion Flame
15%
Premixed Cool Flame
15%
Reactor
14%
Flammability Limits
14%
Low-temperature Chemistry
11%
Acetylene
11%
Equivalence Ratio
10%
Flame Extinction
10%
High Temperature
9%
Flame Regime
9%
Combustion
9%
Flame Structure
9%
Flame Propagation
8%
In Situ
8%
Kinetic Study
8%
Ozone Addition
8%
Non-premixed
8%
Kinetic Effects
8%
Deflagration-to-detonation Transition
8%
Heptane
8%
Autoignition
8%
Nanosecond Discharge
8%
Kinetic Model
8%
Lewis number
7%
Photolysis
7%
Supercritical Pressure
7%
Plasma-assisted
7%
Non-equilibrium Plasma
7%
Intermediate Temperature
7%
Air Mixture
7%
Formaldehyde
7%
Hydrogen Peroxide
6%
Radiative Heat Loss
6%
Low-temperature Oxidation
6%
Ethylene
6%
S-curve
6%
Pulsed Discharge Plasma
6%
Plasma-assisted Combustion
6%
N-Dodecane
5%
Kinetic Enhancement
5%
Propane Oxidation
5%
Non-equilibrium
5%
CO2 Dilution
5%
Spherical Flame Initiation
5%
Correlated Dynamic Adaptive Chemistry
5%
Ignition Delay Time
5%
Self-sustaining
5%
Plasma-activated
5%
Bomb
5%
Detonation Transition
5%
Minimum Ignition Energy
5%
Combustion Chemistry
5%
Nanosecond Pulsed Plasma
5%
Direct Ignition
5%
Low-temperature Reactivity
5%
Outwardly Propagating Spherical Flame
5%
Warm Flame
5%
HO2 Radical
5%
Dynamic Limit
5%
Flow Reactor
5%
Pentane
5%
Chemistry Reduction
5%
NOx Emission
5%
Femtosecond
5%
Laminar Flame Speed
5%
Methane
5%
Fuel-lean
5%