INIS
decommissioning
100%
wastes
87%
radionuclides
85%
exercise
84%
performance
63%
carbon 14
59%
reactors
50%
nickel 63
46%
iron 55
46%
comparative evaluations
35%
steels
33%
assessments
33%
resins
33%
ion exchange
33%
laboratories
32%
sampling
31%
pressure vessels
29%
triga type reactors
28%
radiochemical analysis
28%
reactor decommissioning
27%
raw materials
27%
trace elements
27%
graphite
27%
concentration
24%
validation
21%
calcium 41
20%
sorption
20%
finland
19%
cobalt 60
19%
research reactors
19%
brines
18%
levels
16%
scaling
16%
waste management
16%
seas
15%
values
14%
volatility
13%
stainless steels
13%
shutdown
13%
firs
13%
cavities
13%
rings
13%
nuclear wastes
13%
spectroscopy
13%
planning
13%
nuclear safety
12%
nuclides
12%
resources
11%
seawater
11%
desorption
11%
Keyphrases
Intercomparison Exercise
84%
Decommissioning Waste
80%
Difficult to Measure Radionuclides
52%
63Ni
45%
55Fe
45%
Activation Calculation
45%
Activated Concrete
40%
Ion Exchange Resin
36%
Performance Assessment
33%
Reactor Pressure Vessel Steel
29%
Radiochemical Analysis
29%
Reactor Decommissioning
27%
Trace Elements
27%
Critical Raw Materials
27%
Saltworks
27%
Graphite
27%
ISO 13528
27%
Steel Sample
24%
Gamma Emitters
24%
Lessons Learned
22%
Method Validation
22%
Reactor
22%
Sorbent
22%
Finland
21%
Research Reactor
20%
41Ca
20%
Concrete Specimen
20%
Sorption
20%
Radionuclides
19%
Polymeric Sorbent
19%
Bittern
19%
Statistical Analysis
18%
Activity Concentration
16%
Final Disposal
16%
TRIGA Research Reactor
16%
Inorganic Sorbents
16%
Brine
15%
Assigned Value
15%
Characterization Techniques
13%
Waste Management
13%
Speciation
13%
Scale Factor
13%
Stainless Steel
13%
TRIGA Reactor
13%
Trace Level
13%
Cobalt
13%
Gallium
13%
Nuclear Waste Materials
13%
Cavity Ring-down
13%
Spectroscopic Analysis
13%