Keyphrases
Polycyclic Aromatic Hydrocarbons
100%
Soot Evolution
100%
Large Eddy Simulation
100%
Flow Strain
100%
Turbulent Reacting Flows
100%
Transport Approach
100%
Strain-sensitive
100%
Effective Lewis number
77%
Soot Volume Fraction
55%
Non-premixed
44%
Global Strain Rate
44%
Mass Fraction
22%
Soot
22%
Acetylene
22%
Jet Flame
22%
New Strain
22%
Strain Sensitivity
22%
Flamelet Equations
11%
Flamelet
11%
Scalar Dissipation Rate
11%
Spatial Distribution
11%
Flame Temperature
11%
Rate Coefficients
11%
Naphthalene
11%
Growth Rate
11%
Temperature Sensitivity
11%
Prediction Accuracy
11%
Direct numerical Simulation
11%
Temperature Measurement
11%
Flame Height
11%
Turbulent Mixing
11%
Numerical Simulation Data
11%
Turbulent Reynolds number
11%
Parameter Sensitivity
11%
Surface Growth
11%
Temperature Prediction
11%
Molecular Diffusion
11%
Kolmogorov Length Scale
11%
Simulation Framework
11%
Combustion Products
11%
Differential Transport
11%
Intermittent Region
11%
Slow Formation
11%
Engineering
Lewis Number
100%
Large Eddy Simulation
100%
Aromatics
100%
Reacting Flow
100%
Strain Rate
57%
Experimental Measurement
42%
Flamelets
28%
Mass Fraction
28%
Good Agreement
28%
Dissipation Rate
14%
Length Scale
14%
Flame Temperature
14%
Reynolds' Number
14%
Accurate Prediction
14%
Peak Value
14%
Spatial Distribution
14%
Direct Numerical Simulation
14%
Centerline
14%
Sensitivity Parameter
14%
Growth Surface
14%
Kolmogorov Scale
14%
Strain Sensitivity
14%
Earth and Planetary Sciences
Polycyclic Aromatic Hydrocarbons
100%
Lewis Number
100%
Reacting Flow
100%
Strain Rate
57%
Jet Flow
28%
Turbulent Mixing
14%
Spatial Distribution
14%
Data Simulation
14%
Reynolds Number
14%
Naphthalene
14%
Laboratory Scale
14%
Molecular Diffusion
14%
Flame Temperature
14%
Chemical Engineering
Polycyclic Aromatic Hydrocarbon
100%
Naphthalene
25%