INIS
hydrostatics
100%
modeling
100%
dynamics
75%
resolution
75%
grids
75%
prediction
50%
flow models
50%
simulation
50%
zones
25%
poisson equation
25%
acceleration
25%
efficiency
25%
variations
25%
implementation
25%
comparative evaluations
25%
coastal waters
25%
coastal regions
25%
capture
25%
accuracy
25%
velocity
25%
equations
25%
cost
25%
solutions
25%
constraints
25%
Engineering
Demonstrates
100%
Fields
100%
Models
50%
Dimensional Flow Field
50%
Numerical Implementation
50%
Improving Efficiency
50%
Horizontal Velocity
50%
Computational Constraint
50%
Coarse Grid
50%
Experiments
50%
Computational Effort
50%
Model Prediction
50%
Turbulent Stress
50%
Surf Zone
50%
Governing Equation
50%
Compute
50%
Earth and Planetary Sciences
Mathematical Model
100%
Wave
100%
Hydrostatics
100%
Approach
100%
Model
66%
Coastal Current
16%
Hydrostatic Pressure
16%
Undertow
16%
Coastal Region
16%
Flume Experiment
16%
Surface Pressure
16%
Constraint
16%
Cost
16%
Accuracy
16%
Surf Zone
16%
Variation
16%
Field Scale
16%
Flow Distribution
16%
Site
16%
Three Dimensional Flow
16%
Retaining
16%
Coastal Water
16%