INIS
soils
100%
permeability
100%
dikes
100%
solutions
100%
engineering
100%
barriers
57%
netherlands
42%
organic matter
42%
aluminium
28%
organometallic compounds
28%
stability
28%
injection
14%
design
14%
surfaces
14%
energy
14%
salts
14%
sand
14%
particles
14%
economics
14%
simulation
14%
evaluation
14%
metals
14%
subsurface structures
14%
labor
14%
modifications
14%
stratification
14%
permeability reduction
14%
transport
14%
delivery
14%
flow rate
14%
mixing
14%
viability
14%
climatic change
14%
national security
14%
cost
14%
pipes
14%
precipitation
14%
flocculation
14%
Engineering
Models
100%
Development
100%
Engineering
100%
Flow Field
66%
Subsurface
66%
Evaluation
33%
Metal Salt
33%
Mixing
33%
Economics
33%
Research
33%
Soil Stratification
33%
Surface System
33%
Research Project
33%
Flow Rate
33%
Precipitation
33%
Design
33%
Full Scale
33%
Flocculation
33%
Pipe
33%
Direct-Injection
33%
Scale Experiment
33%
Climate Change
33%
Reduction
33%
Energy Engineering
33%
Earth and Planetary Sciences
Permeability
100%
Soil
100%
Dyke (Water management)
100%
Approach
100%
Organic Matter
42%
Netherlands
42%
Podzolization
42%
Stability
28%
Aluminum
28%
Flow Distribution
28%
Model
28%
Feasibility
28%
Research
28%
Show
14%
Particles
14%
National Security
14%
Alternatives
14%
Lie
14%
Scenario Analysis
14%
Investigation
14%
Technology
14%
Delivery
14%
Climate Change
14%
Injection
14%
Flow Velocity
14%
Flocculation
14%
Project
14%
Economics
14%
Pipe
14%
Metal
14%
Piping
14%
Convention
14%
Country
14%
Evaluation
14%
Sand
14%
Development Model
14%
Experiment
14%
Revision
14%
Material Science
Permeability
100%
Biological Material
75%
Aluminum
50%
Mixing
25%
Metal
25%
Surface
25%
Sand
25%
Particle
25%
Chemical Engineering
Building--Aluminum Application
100%
Precipitation (Chemical)
50%
Mixing
50%
Flocculation
50%
Keyphrases
Seepage Flow Rate
16%
Direct Injection
16%
Climate Change Awareness
16%
In-situ Reaction
16%
Complex Precipitation
16%
Inspiration from Nature
16%
In-situ Mixing
16%