Keyphrases
Multi-barrier
100%
Simplified Model
100%
Repository System
100%
Simplified Approach
100%
Disposal System
100%
239Pu
100%
Solute Transport Modeling
100%
Concentration Field
66%
Release Rate
66%
Sorption
66%
Delay Time
66%
Geosphere
66%
Radionuclides
66%
Radionuclide Transport
66%
Radionuclide Migration
66%
Carbon-14
66%
Transport Barriers
66%
Well-mixed
66%
Decay Chain
66%
I-129
66%
Mixed Volume
66%
Equivalent Flows
66%
Radionuclide Concentration
66%
Nuclear Waste Repository
33%
Order of Magnitude
33%
Numerical Results
33%
Mathematical Model
33%
Near-field
33%
Performance Measures
33%
Total Pore Volume
33%
Temporal Behavior
33%
Matrix Diffusion
33%
Radioactive Decay
33%
Waste Canister
33%
Transport Processes
33%
Biosphere
33%
Multiple Nested
33%
Simplified System
33%
Volumetric Flow Rate
33%
Advection
33%
Outflow Rate
33%
Solute Concentration
33%
Migration Properties
33%
Formal Analogy
33%
Migration Analysis
33%
Retardation Factor
33%
INIS
barriers
100%
modeling
100%
transport
100%
solutes
100%
nuclides
61%
radionuclide migration
30%
concentration
23%
volume
23%
half-life
23%
flow rate
23%
plutonium 239
23%
performance
15%
chains
15%
time delay
15%
diffusion
15%
migration
15%
compartments
15%
sorption
15%
radionuclides
15%
iodine 129
15%
radionuclide concentration
15%
decay
7%
comparative evaluations
7%
data
7%
buffers
7%
mathematical models
7%
transients
7%
wastes
7%
solubility
7%
matrices
7%
capacity
7%
accuracy
7%
nuclear wastes
7%
biosphere
7%
canisters
7%
nuclear decay
7%
advection
7%
Earth and Planetary Sciences
Nuclides
100%
Solute Transport
100%
Radionuclide
85%
Half-Life
42%
Flow Velocity
42%
Sorption
28%
Radionuclide Migration
28%
Lithosphere
28%
Radioactive Waste
14%
Can
14%
Radioactive Isotope
14%
Radioactive Decay
14%
Time Constant
14%
Transport Process
14%
Advection
14%
Mathematical Model
14%
Physics
Nuclides
100%
Half-Life
42%
Flow Velocity
42%
Radionuclide Migration
28%
Lithosphere
28%
Sorption
28%
Radioactive Waste
14%
Solubility
14%
Transients
14%
Mathematical Model
14%
Time Constant
14%
Radioactive Isotope
14%
Transport Process
14%
Radioactive Decay
14%
Advection
14%
Chemical Engineering
Radioisotope
100%
Isotope
77%
Sorption
22%