Keyphrases
Toluene
100%
Combustion
100%
N-Butanol
100%
Heptane
100%
Emission Prediction
100%
IC Engine
100%
Toluene Reference Fuel
83%
Soot Emission
66%
Formation Process
50%
Soot Formation
50%
CFD Simulation
33%
NOx Emission
33%
Exhaust Gas Recirculation
33%
Blended Fuel
33%
Fuel Blends
33%
Butanol-diesel Blend
33%
Concentration Profile
16%
Blending Ratio
16%
Ignition Delay Time
16%
Butanol
16%
Reduction Method
16%
Elimination Reactions
16%
Sensitivity Analysis
16%
Emission Peak
16%
Detailed Mechanism
16%
Species Concentration
16%
Injection Rate
16%
Recirculation Rate
16%
Shock Tube
16%
Heat Release Rate
16%
Reduced Mechanism
16%
Injection Timing
16%
Pure Diesel
16%
Start of Injection
16%
Multi-technique
16%
Start of Injection Timing
16%
Soot Model
16%
Laminar Flame Speed
16%
Flat Flame Burner
16%
KIVA-3V
16%
12-step
16%
Detailed Reaction Mechanism
16%
Error Propagation Analysis
16%
Directed Relation Graph with Error Propagation
16%
Combustion CFD
16%
Jet-stirred Reactor
16%
Error Sensitivity Analysis
16%
Reaction Path Analysis
16%
Preconditioned Krylov Methods
16%
Engineering
Reference Fuel
100%
N-Heptane
100%
Fuel Blend
80%
Computational Fluid Dynamics
40%
Exhaust Gas Recirculation
40%
Good Agreement
20%
Delay Time
20%
Experimental Result
20%
Ignition Delay
20%
Concentration Profile
20%
Emission Peak
20%
Heat Release Rate
20%
Heptane
20%
Krylov Method
20%