Earth and Planetary Sciences
River
100%
Accuracy
100%
Mathematical Model
100%
Selection
100%
Model
100%
Advection
38%
Backwater
38%
Bed
38%
Order
30%
Flow Distribution
23%
Error
23%
Momentum
23%
Need
23%
Strategy
15%
Approach
15%
Turbulence Model
15%
Water Level
7%
Boundary Condition
7%
Cause
7%
Physical Process
7%
Turbulent Mixing
7%
Flow Resistance
7%
Investigation
7%
Two Dimensional Model
7%
Steady State
7%
Groin
7%
Purpose
7%
Sill
7%
Landscape
7%
Coordinate
7%
Incorporation
7%
Flood Plain
7%
Engineering Work
7%
Variation
7%
Condition
7%
Germany
7%
Block
7%
Circuit Diagrams
7%
Constancy
7%
Vortex Shedding
7%
Stairway
7%
Shape
7%
Area
7%
Experiment
7%
Aspect
7%
Set
7%
Conservation
7%
Building
7%
INIS
efficiency
100%
accuracy
100%
rivers
100%
grids
100%
modeling
100%
resolution
42%
friction
35%
advection
35%
calculation methods
35%
layers
35%
errors
21%
surfaces
14%
convergence
14%
applications
14%
turbulence
14%
one-dimensional calculations
14%
equations
14%
hydrodynamic model
14%
solutions
14%
dynamics
7%
cylinders
7%
levels
7%
coordinates
7%
variations
7%
vortices
7%
comparative evaluations
7%
approximations
7%
boundary conditions
7%
mixing
7%
water
7%
germany
7%
engineers
7%
data
7%
steady-state conditions
7%
engineering
7%
size
7%
shear
7%
topography
7%
Engineering
Models
100%
Large Effect
100%
Advection
45%
Discretization
27%
Two Dimensional
27%
Obtains
18%
Hydrodynamic Model
18%
Error
18%
Turbulence
18%
One Dimensional
18%
Applicability
18%
Free Surface
18%
Layer Model
18%
Jetties
9%
Common Method
9%
Grid Convergence
9%
Modeling Strategy
9%
Flow Problem
9%
Conservation
9%
Lesser Extent
9%
Vortex Shedding
9%
Determines
9%
Coordinate System
9%
Discretization Error
9%
Schematic Diagram
9%
Elbe River
9%
Coarse Grid
9%
Computational Effort
9%
Engineering
9%
Combines
9%
Discretized Equation
9%
Tasks
9%
Real World
9%
Numerical Experiment
9%
Building Block
9%
Convergence Property
9%
Shallower
9%