INIS
dissolution
100%
ground water
57%
thorium oxides
53%
surfaces
45%
reduction
38%
spent fuels
36%
simulation
33%
anaerobic conditions
32%
montmorillonite
32%
thorium 229
27%
solutions
25%
uranium dioxide
24%
wastes
24%
matrices
24%
modeling
22%
aqueous solutions
20%
concentration
19%
interactions
19%
leaching
19%
microstructure
19%
fuels
18%
uranium
18%
alpha spectrometry
18%
low-level radioactive wastes
18%
chemistry
17%
smectite
17%
layers
16%
reactor decommissioning
16%
nuclear fuels
16%
physics
16%
doped materials
16%
removal
16%
strontium 90
16%
seawater
16%
resins
16%
cerium oxides
16%
pellets
16%
triga type reactors
16%
firs
16%
mechanical properties
16%
ion exchange
16%
furans
16%
formic acid
16%
sodium
16%
tetrahydrofuran
16%
formates
16%
furfural
16%
ph value
15%
solids
14%
iron
13%
Keyphrases
ThO2
53%
Groundwater
35%
Spent nuclear Fuel
32%
Anaerobic Conditions
32%
Dissolution Rate
32%
Thorium-229
29%
Dissolution Test
27%
Montmorillonite
26%
Spent Fuel
24%
Smectite
24%
Aqueous Solution
22%
Alpha Spectrometry
21%
Na-montmorillonite
21%
U(VI)
20%
Reactive Surface
20%
Disposal Concepts
18%
Waste Characterization
16%
TRIGA Research Reactor
16%
Reactor Decommissioning
16%
Low-activity Waste
16%
Nuclear Fuel
16%
System Experiment
16%
Ion Exchange Resin
16%
Leaching Study
16%
Remobilization
16%
Bentonite
16%
Fuel Behavior
16%
90Sr
16%
Simulated Groundwater
16%
Closed-loop System
16%
Uranium
16%
Reactor
16%
Fe(II)
16%
Gasification
16%
Decommissioning Waste
16%
Geopolymerization
16%
Mechanical Properties
16%
Tetrahydrofuran Derivatives
16%
Furfuryl Alcohol
16%
Doped UO2
16%
Formic Acid
16%
Catalytic Reduction
16%
Sodium Formate
16%
Furan Derivatives
16%
Furfural
16%
Microstructure
16%
Surface Features
16%
Simulant
16%
Ca-montmorillonite
16%
Grain Boundary
16%