Engineering
Ships
100%
Computational Fluid Dynamics
66%
Water
62%
Hydrodynamics
51%
Shallower
45%
Scale Effect
24%
Full Scale
21%
Performance
20%
Prediction
20%
Ship Resistance
19%
Models
16%
Simulation
14%
Canals
14%
Numerical Study
14%
Reynolds-Averaged Navier-Stokes
13%
Applications
13%
Froude Number
11%
Scale Ship
11%
Boats
11%
Loading Condition
11%
Estimation
9%
Turbulence
9%
Ship Speed
8%
Low Speed
8%
Potential Flow
7%
Benchmark
7%
Eddy Viscosity
7%
Fields
7%
Research
7%
Waterway
7%
Sinkage
6%
Computer Simulation
6%
Inland Waterways
6%
Empirical Method
6%
Design Stage
6%
Reduction
6%
Cross Sections
5%
Regular Wave
5%
Waterway Transportation
5%
Parametric Roll
5%
Roughness
5%
Warship
5%
Duct
5%
Aerodynamics
5%
Ship Form
5%
Hydrodynamic Performance
5%
Green Water
5%
Roughness Effect
5%
Ship Models
5%
Numerical Modeling
5%
Physics
Hydrodynamics
46%
Water
40%
Shallow Water
30%
Charge Flow Device
23%
Scale Effect
22%
Computational Fluid Dynamics
20%
Simulation
18%
Independent Variables
13%
Performance
13%
Utilization
13%
Potential Flow
10%
Model
10%
Froude Number
9%
Solitary Wave
8%
Magnitude
7%
Eddy Viscosity
7%
Turbulence Model
7%
Impact
7%
Slender Bodies
6%
Position (Location)
5%
Head Wave
5%
Turbulence
5%
Aerodynamics
5%
Decomposition
5%
Multiphase Flow
5%
Ducts
5%
Numerical Analysis
5%
Assessments
5%
Eddy
5%
Extrapolation
5%
Earth and Planetary Sciences
Hydrodynamics
34%
Ship
29%
Investigation
12%
Water
12%
Waterway
9%
Depth
7%
Wave
7%
Canal
7%
Simulation
6%
Behavior
5%
Transportation
5%
Eddy Viscosity
5%
Aerodynamics
5%
Experimental Study
5%
Prediction
5%
Scale Effect
5%
Utilization
5%
Water Depth
5%
United Kingdom
5%
Vortex
5%
Turbulence Model
5%
