Engineering
Large Eddy Simulation
100%
Direct Numerical Simulation
48%
Flamelets
46%
Reacting Flow
29%
Number Density
29%
Source Term
28%
Probability Density Function
28%
Combustion Modeling
27%
Aromatics
25%
Model Form
25%
Premixed Combustion
24%
Experimental Measurement
24%
Reynolds Stress
23%
Premixed Flame
22%
Recirculation Zone
22%
Autoignition
22%
Heat Losses
22%
Dissipation Rate
22%
Uncertainty Quantification
20%
Gas-Phase
20%
Lewis Number
19%
Heat Release
18%
Combustor
18%
Length Scale
17%
Turbulent Kinetic Energy
16%
Combustion
15%
Similarities
15%
One Dimensional
14%
Reynolds' Number
14%
Joints (Structural Components)
13%
Rich Mixture
13%
Hybrid Method
13%
Premixed Turbulent Flame
12%
Isotropic Turbulence
12%
Computational Cost
12%
Boussinesq's Hypothesis
12%
Strain Rate
11%
Growth Surface
11%
Two Dimensional
11%
Phase Space
11%
Limitations
10%
Comparative Analysis
10%
Scaling Parameter
10%
Mode Dynamic
10%
Model Fidelity
10%
Oscillating Flow
10%
Radiation Intensity
10%
Offshore Wind Farms
10%
Quadrature Method of Moment
10%
Lean Mixture
9%
Modeling Error
9%
Dirichlet
8%
Aircraft Model
7%
Chemical Effect
7%
Direct Simulation
7%
Rate Tensor
7%
Wave Spectra
7%
Computer Simulation
7%
Functional Form
7%
Multiscale
7%
Turbulent Diffusion
6%
Equivalence Ratio
6%
Diffusion Flame
6%
Flow Field
6%
Oxidizer
6%
Hydrodynamics
6%
Moment Method
6%
Gas Turbine Combustors
6%
Good Agreement
6%
Rate Kinetics
6%
Chemical Mechanism
6%
Flame Propagation
5%
Combustion Mode
5%
Large Eddy Simulation Approach
5%
Energy Engineering
5%
Partial Premixing
5%
Physical Model
5%
Form Error
5%
Supersonic Combustion
5%
Compressibility
5%
Data Point
5%
Counterflow Configuration
5%
Surface Model
5%
Computational Fluid Dynamics
5%
Separated Flow
5%
Triple Point
5%
Physical Space
5%
Memory Requirement
5%
Boundary Condition
5%
Reaction Zone
5%
Great Number
5%
Space Data
5%
Oxidation Rate
5%
Temporal Evolution
5%
Simulation Model
5%
Flow Simulation
5%
Infrared Radiation
5%
Oxidation Kinetics
5%
Hydrogen Fuel
5%
Computational Technique
5%
Keyphrases
Non-premixed
20%
Large Eddy Simulation
19%
Soot
19%
Soot Evolution
17%
Soot-turbulence Interaction
15%
Strain-sensitive
10%
Model Form Uncertainty Quantification
10%
Multi-moment
10%
Sectional Method
10%
Model Gas Turbine Combustor
10%
Direct numerical Simulation
8%
Turbulent Combustion Model
7%
Low-fidelity Model
7%
Similarity Constraint
7%
Jet Flame
7%
Soot Formation
7%
Ethylene
7%
Soot Volume Fraction
6%
Turbulent Reacting Flows
6%
Non-premixed Combustion
6%
Steady Laminar Flamelet Model
6%
Mixture Fraction
6%
Air Coflow
6%
High Karlovitz number
6%
Turbulent Premixed Jet Flames
5%
Flamelet
5%
Soot Particle Size Distribution
5%
Hydrodynamic Effect
5%
Hierarchical Model
5%
Double Correlation
5%
Multiple Mapping Conditioning
5%
Peer Models
5%
Oscillatory Flow
5%
Flamelet Modeling
5%
High-fidelity Model
5%
Subfilter Modeling
5%
Model-form Uncertainty
5%
Non-premixed Flame
5%
Implicit Iterative Algorithm
5%
Monolithic Scheme
5%
Approximate Factorization
5%
Chemical Effect
5%
Ammonia Economy
5%
Adaptive Manifold
5%
Diffusion Flame
5%
Autoignition
5%
Dimethyl Ether
5%
Turbulent Jet Flame
5%
Lagrangian Analysis
5%
Curvature Effect
5%
Laminar Flamelet Model
5%
Partially Premixed Combustion
5%
Stream Gradient
5%
Chemical Species Transport
5%
Reduced-order Manifolds
5%
Dynamic Wall
5%
Wall Modeling
5%
Bluff-body Flames
5%
Flow Strain
5%
Hydrogen Addition
5%
Wind-wave Interactions
5%
Soot Size Distribution
5%
Swirl Combustor
5%
Combustion Heat Release
5%
Methyl Butanoate
5%
Soot Oxidation
5%
Dilution Jets
5%
Function-based Modeling
5%
Ethylene Flame
5%
Turbulent Premixed Combustion
5%
Simulation Probability Density Function
5%
Jet Effect
5%
Scale Parameter
5%
Decaying Isotropic Turbulence
5%
Cool Flame
5%
Progress Variable
5%
Normalizing Flows
5%
Equilibrium Manifold
5%
Experimental Imaging
5%
Inhomogeneous Inlets
5%
Relative Influence
5%
Probability Density Function Model
5%
Multi-scalar
5%
Bivariate beta Distribution
5%
Direct Quadrature Method of Moments (DQMOM)
5%
Coflow Flames
5%
Polycyclic Aromatic Hydrocarbons
5%
Dissipation Rate
5%
Reynolds Stress Budgets
5%
Multi-model Imaging
5%
Bluff Body
5%
Luminous Flame
5%
Soot Fragmentation
5%
Bivariate Model
5%
Joint Volume
5%
Multi-parameter Model
5%
Kinetic Uncertainties
5%
High Oxygen Concentration
5%
Soot Aggregates
5%
Turbulent Lifted Flame
5%