Engineering
Ignition
100%
Direct Numerical Simulation
70%
Premixed Flame
63%
Air Mixture
51%
Autoignition
51%
Compression Ignition
47%
Diffusion Flame
44%
Computational Fluid Dynamics
42%
Combustion Engine
40%
Flamelets
37%
Ignition Engine
37%
Strain Rate
35%
Equivalence Ratio
33%
Turbulent Flame
30%
Heat Release
30%
Flame Speed
29%
Ignition Delay
28%
Reaction Zone
28%
Large Eddy Simulation
25%
Premixed Turbulent Flame
24%
Internal Combustion Engine
24%
Reacting Flow
24%
Two Dimensional
23%
Low-Temperature
22%
Combustion Mode
22%
Dissipation Rate
21%
Premixed Combustion
20%
Combustion Chamber
20%
Heat Losses
20%
One Dimensional
18%
Numerical Study
18%
Computer Simulation
18%
Gas-Phase
18%
Aromatics
18%
Direct-Injection
18%
Flow Field
18%
Homogeneous Charge Compression Ignition
18%
Transients
17%
Laminar Flame
17%
Dilution
15%
Parametric Study
15%
Combustion
15%
Reactant
14%
Heptane
14%
Main Chamber
14%
Simulation Result
14%
Syngas
13%
Thermal Efficiency
13%
Stagnation Point Flow
13%
Elevated Pressure
13%
Keyphrases
Computational Study
15%
Autoignition
12%
Direct numerical Simulation
11%
Premixed Flame
11%
Computational Singular Perturbation
10%
Combustion
10%