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The effect of geometry on radionuclide transport in a bedrock fracture
Karita Kajanto
VTT Technical Research Centre of Finland
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Dive into the research topics of 'The effect of geometry on radionuclide transport in a bedrock fracture'. Together they form a unique fingerprint.
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Keyphrases
Radionuclides
100%
Geometry Effect
100%
Bedrock Fractures
100%
Radionuclide Transport
100%
Transport Properties
66%
Rock Fracture
66%
Flow Field
33%
Nuclear Waste Repository
33%
Groundwater
33%
Long Distance
33%
Computational Problems
33%
Numerical Methods
33%
Flow Properties
33%
Sorption
33%
System Failure
33%
Long-term Safety
33%
Matrix Diffusion
33%
Time Integration
33%
Parallel Plates
33%
Natural Fracture
33%
Fracture Flow
33%
Groundwater Transport
33%
Single Rock Fracture
33%
Chemical Reaction Engineering
33%
Subsurface Flow
33%
Flow Transport
33%
Variable-aperture Fractures
33%
COMSOL Multiphysics 4.2a
33%
INIS
geometry
100%
fractures
100%
radionuclide migration
100%
transport
50%
rocks
37%
radionuclides
37%
dispersions
25%
shape
25%
ground water
25%
failures
12%
tools
12%
safety
12%
engineering
12%
pulses
12%
approximations
12%
size
12%
diffusion
12%
retention
12%
matrices
12%
nuclear wastes
12%
sorption
12%
distance
12%
plates
12%
apertures
12%
nuclides
12%
chemical reactions
12%
imports
12%
Earth and Planetary Sciences
Radioactive Isotope
100%
Rock Fracture
100%
Radionuclide
100%
Flow Distribution
33%
Transport Property
33%
Subsurface Flow
33%
Parallel Plate
33%
Fracture Aperture
33%
Fracture Flow
33%
Trough
33%
Radioactive Waste
33%
Isotope
33%