Engineering & Materials Science
Large eddy simulation
100%
Ignition
99%
Methane
53%
Methanol
44%
Engines
30%
Hydrogen
24%
Temperature
20%
Air
17%
Ethane
16%
Flow simulation
14%
Computer aided design
13%
Ammonia
13%
Electric sparks
12%
Dynamic loads
12%
Gasoline
12%
Time delay
11%
Computer simulation
11%
Characterization (materials science)
11%
Resource allocation
10%
Hot Temperature
10%
Negative temperature coefficient
9%
Reaction kinetics
8%
Turbulence
8%
Ordinary differential equations
6%
Thermal stratification
6%
Physics & Astronomy
ignition
59%
fuel combustion
52%
large eddy simulation
42%
methane
37%
methyl alcohol
31%
hydrogen
28%
sprayers
26%
reactivity
23%
flames
22%
stratification
21%
chemistry
20%
flame propagation
18%
dynamic loads
17%
gasoline
17%
engines
13%
ammonia
13%
turbulence
11%
simulation
11%
spontaneous combustion
10%
air
9%
injection
9%
deflagration
9%
time lag
7%
characterization
7%
curves
6%
heat
5%
computational fluid dynamics
5%
reaction kinetics
5%
Mathematics
Large Eddy Simulation
56%
Combustion
40%
Spray
38%
Ignition
31%
Dynamic Load Balancing
24%
Injection
23%
Engine
21%
Flow Simulation
18%
Breakup
14%
Libraries
13%
Chemistry
13%
Open Source
13%
Flame
9%
Strategy
9%
Modeling
8%
Computational Fluid Dynamics
8%
Reactivity
8%
Subgrid-scale Model
7%
Particle Tracking
7%
Hydrogen
7%
Speedup
6%
Model
6%
Droplet
5%
Nozzle
5%
Delay Time
5%
Heat
5%
Kelvin
5%
Premixed Flame
5%