Engineering
Velocity
100%
Models
55%
Experiments
54%
Combustion
47%
Heptane
38%
Methane
38%
Equivalence Ratio
30%
Ignition
29%
Temperature
28%
Large Eddy Simulation
28%
Kinetic Model
27%
Prediction
27%
Ignition Delay
25%
Heat Flux
25%
Development
22%
Performance
22%
Reactor
21%
Engine
21%
Delay Time
21%
Modeling Study
21%
Temperature Dependence
20%
Premixed Flame
20%
Temperature Range
19%
Reaction Rate
19%
Flux Method
19%
Isooctane
16%
Air Mixture
15%
Radiation Effect
15%
Gas Mixture
14%
Atmospheric Pressure
14%
Contaminant
14%
Microwave
14%
Experimental Result
14%
Roads and Streets
12%
Mixture Temperature
10%
Biofuels
10%
Internal Combustion Engine
9%
Good Agreement
9%
Gas Temperature
9%
Combustor
9%
Enhancement
9%
Atmospheric Condition
9%
High Pressure
8%
Micron
8%
Low-Temperature
8%
Initial Gas
8%
Aviation
8%
Characteristics
8%
Chemical Mechanism
8%
Gas Turbine Combustors
8%
Chemistry
Chemical Reaction
90%
Chemical Kinetics Characteristics
64%
Reaction Temperature
52%
Reaction Mechanism
45%
Burning Velocity
40%
Flame
38%
Combustion
31%
Mixture
28%
Procedure
28%
Molecule
22%
Oxidation Reaction
20%
Pressure
19%
Chemistry
18%
Chemical Reaction Product
18%
Chlorine Atom
18%
Analytical Method
16%
Gas
14%
Photolysis
14%
Methanol
14%
Ester
12%
Reactivity
10%
Absorption Cross-Section
10%
Formaldehyde
9%
Laminar Flame
8%
Reactor
8%
Methane
8%
Furan
8%
Laser Induced Fluorescence Spectroscopy
8%
Concentration
7%
Fourier Transform Infrared Spectroscopy
7%
Chloroform
7%
Computational Chemistry
7%
Isotope Effect
7%
Quantum Chemistry
7%
Nitromethane
7%
Tetrahydrofuran
7%
Lactone
7%
Chemical Method
7%
Methyl Methacrylate
7%
Aqueous Solution
7%
UV Absorption
7%
Ammonia
7%
Kinetic Method
7%
Diluting Agent
6%
Rate Constant
6%
DFT-B3LYP Calculation
5%
Energy
5%