Engineering & Materials Science
Ignition
60%
Plasmas
47%
Temperature
44%
Oxidation
40%
Ethers
32%
Air
31%
Methane
28%
Reaction kinetics
26%
Heptane
25%
Flammability
19%
Faraday effect
19%
Oxygen
19%
Detonation
17%
Radiation
16%
Ozone
15%
Fuel burners
14%
Heat losses
14%
Hydrogen
13%
Spectroscopy
12%
Jet fuel
12%
Dilution
11%
Acetylene
10%
Gases
10%
Computer simulation
9%
Hydrocarbons
9%
Photolysis
8%
Paraffins
8%
Hot Temperature
8%
Pyrolysis
8%
Experiments
8%
Strain rate
8%
Absorption spectroscopy
7%
Electrons
7%
Propane
7%
Negative temperature coefficient
7%
Fluorescence
7%
Molecular beams
7%
Flame synthesis
7%
Atoms
7%
Formaldehyde
7%
Engines
6%
Lasers
6%
Helium
6%
Quenching
6%
Atmospheric pressure
6%
Direct numerical simulation
5%
Phosphors
5%
Photoluminescence
5%
Microgravity
5%
Uncertainty
5%
Time delay
5%
Turbulence
5%
Aerosols
5%
Physics & Astronomy
flames
100%
ignition
41%
diffusion flames
32%
extinction
30%
kinetics
29%
oxidation
28%
counterflow
26%
chemistry
25%
premixed flames
23%
ethers
22%
air
22%
reactors
20%
methane
19%
reaction kinetics
16%
heptanes
15%
Lewis numbers
14%
flame propagation
13%
laminar flames
13%
oxygen
10%
plasma jets
10%
Faraday effect
9%
reactivity
9%
flammability
9%
flame temperature
9%
temperature
9%
nonequilibrium plasmas
9%
burners
9%
spontaneous combustion
8%
heat
8%
hydrogen
8%
detonation
8%
radiation
7%
ozone
7%
turbulent flames
7%
jet engine fuels
6%
augmentation
6%
alkanes
6%
dilution
6%
pyrolysis
5%
ethylene
5%
equivalence
5%
pentanes
5%
spectroscopy
5%
S curves
5%
propagation
5%
predictions
5%
supercritical pressures
5%
simulation
5%
synthesis
5%
Chemical Compounds
Flame
85%
Fuel
36%
Diffusion Flame
34%
Premixed Flame
21%
Pressure
21%
Chemistry
21%
Dimethyl Ether
20%
Laminar Flame
18%
Oxidation Reaction
16%
Faraday Effect
16%
Lewis Number
15%
Plasma
14%
Mixture
14%
Flow
13%
Jet
11%
Methane
11%
Simulation
10%
Burner
10%
Nonequilibrium
9%
Heat
8%
Turbulent Flame
7%
Dioxygen
7%
Gas
6%
Time
6%
Spectroscopy
6%
Molecular Beam
5%
Hydrogen
5%
Detonation
5%
