Physics
Simulation
100%
Model
54%
Galerkin Method
38%
Eddy
36%
Ice Crystal
31%
Utilization
31%
Aerodynamics
29%
Discontinuity
27%
Thermodynamics
24%
Stability
21%
Flow Control
21%
Transonic Flow
21%
Navier-Stokes Equation
21%
Performance
20%
Cavitation Flow
20%
Pressure
20%
Region
18%
Approximation
17%
Impact
16%
Volume
15%
Turbine
14%
Liquids
14%
Terms
14%
Ice
14%
Roughness
14%
Droplet
14%
Information
13%
Momentum
12%
Boundary Layer
12%
Airfoil
12%
Foci
12%
Calculation
11%
Speed
11%
Particle
10%
High Power Lasers
10%
Phase Matching
10%
High Harmonic Generation
10%
Gases
10%
Boundary Condition
10%
Solidification
10%
Increasing
10%
Incompressible Flow
10%
Rotor Stator Interactions
10%
Hydrofoils
10%
Multiblock Grids
9%
Computational Method
9%
Finite Element Methods
9%
Geometry
8%
Value
8%
Harmonics
7%
Engineering
Models
43%
Discontinuous Galerkin
42%
Simulation
32%
Prediction
31%
Ice Crystal
31%
Actuation
31%
Computer Simulation
31%
Accuracy
27%
Applications
26%
Discretization
22%
Energy Engineering
21%
Computational Fluid Dynamics
21%
Rotors
19%
Vortex
19%
Aircraft
17%
Zeros
17%
Wings
17%
Flow Field
17%
Aerodynamics
17%
Transonic Flow
14%
Obtains
14%
Trajectories
14%
Flow Solver
14%
Erosion
14%
Reynolds-Averaged Navier-Stokes
14%
Efficiency
13%
Blade Turbine
13%
Eulerian Approach
12%
Eulerian Method
12%
Accurate Simulation
12%
Flow Analysis
12%
Elements
11%
Germany
10%
High Speed
10%
Separation Control
10%
Synthetic Jet Actuator
10%
Finite Difference Method
10%
Benchmark Case
10%
Boundary Condition
10%
Large Eddy Simulation
10%
Stokes
10%
Particle Evolution
10%
Filters
10%
Biofuels
10%
Requirements
10%
Error
10%
Nacelle
10%
Particle Trajectory
10%
Pressure Distribution
10%
Meshes
10%
Earth and Planetary Sciences
Ice Crystal
31%
Particle
25%
Trajectory
17%
Simulation
15%
Computational Method
14%
Particle Trajectory
12%
Order
11%
Investigation
11%
Utilization
10%
Ice Formation
10%
Delta
10%
Turbofan
10%
Polynomial
10%
Increasing
10%
Discontinuity
10%
Galerkin Method
10%
Accuracy
10%
Leading Edge
10%
Erosion
10%
Turbine Blades
10%
Aerodynamics
10%
Moment
7%
Temperature
7%
Information
6%
Model
6%
Flow Distribution
6%
Condition
6%
Error
5%
Region
5%