Engineering & Materials Science
Ignition
100%
Reaction kinetics
65%
Shock tubes
32%
Time delay
24%
Lasers
24%
Isomers
23%
Methane
23%
Pyrolysis
19%
Propanol
18%
Temperature
18%
Gases
17%
Alcohols
17%
Combustors
16%
Jet fuel
16%
Shock waves
15%
Butenes
14%
Electric sparks
14%
Ethanol
13%
Oxidation
12%
Heptane
12%
Alcohol fuels
12%
Biogas
12%
Esters
12%
Hydrocarbons
12%
Large eddy simulation
11%
Interferometry
10%
Flammability
10%
Argon
10%
Pipe flow
9%
Oxygen
9%
Air
9%
Thermodynamics
9%
Gas turbines
9%
Solid oxide fuel cells (SOFC)
8%
Excited states
8%
Carboxylic acids
7%
Engines
7%
Experiments
7%
Computational fluid dynamics
7%
Plasmas
7%
Electric automobiles
7%
Combustion chambers
6%
Powertrains
6%
Fuel cells
6%
Natural gas
5%
Toluene
5%
Liquids
5%
Butane
5%
Neodymium lasers
5%
Vapor pressure
5%
Chemical Compounds
Fuel
28%
Time
20%
Flame
17%
Pyrolysis
17%
Pressure
14%
Shock Wave
13%
Gas
12%
Simulation
12%
Methane
10%
Methyl Tert-Butyl Ether
10%
Isooctane
9%
Hydrocarbon
9%
Methyl Ester
9%
2-Methylfuran
8%
Methyl Formate
8%
Optical Breakdown
8%
Methyl Acetate
8%
Compound Isomer
7%
Mixture
7%
Interferometry
7%
Autoignition Temperature
7%
Ethanol
7%
Laser Interferometry
7%
Laminar Flame
7%
Jet
6%
2,5-Dimethylfuran
6%
Biofuel
6%
Furan
6%
Combustion Engine
6%
Oxidation Reaction
6%
Premixed Flame
5%
Propanal
5%
Ethyl Formate
5%
Physics & Astronomy
ignition
40%
shock tubes
19%
tetrahydrofuran
16%
pyrolysis
14%
reaction kinetics
13%
isomers
13%
furans
12%
flammability
11%
real gases
11%
octanes
10%
ethers
9%
time lag
9%
inserts
9%
reactivity
8%
lasers
8%
shock waves
7%
gases
7%
methane
7%
kinetics
7%
predictions
7%
formates
7%
flames
6%
spark ignition
6%
esters
6%
thermodynamics
6%
air
5%
synthesis gas
5%
hydrocarbons
5%
breakdown
5%
simulation
5%
acetates
5%
butanes
5%
