INIS
reactors
100%
monte carlo method
82%
performance
64%
finland
45%
applications
39%
design
35%
simulation
35%
district heating
35%
pwr type reactors
35%
burnup
34%
fuels
32%
coupling
31%
levels
29%
solutions
29%
tools
29%
comparative evaluations
28%
benchmarks
27%
neutrons
26%
safety
25%
geometry
25%
ecosystems
24%
nuclear power plants
21%
decommissioning
21%
thermal hydraulics
21%
fuel assemblies
20%
firs
20%
modeling
20%
small modular reactors
19%
power
19%
plasma
18%
experimental data
18%
validation
17%
transport
17%
physics
17%
fission
16%
heating
16%
business
16%
energy
15%
wwer type reactors
15%
triga type reactors
15%
electricity
15%
neutron transport
14%
research programs
14%
irradiation
14%
operation
13%
radioactive wastes
13%
data
13%
market
13%
implementation
13%
tritium
13%
wastes
12%
particles
11%
control
11%
prediction
11%
carbon dioxide
11%
boron
10%
algorithms
10%
management
10%
resources
10%
feedback
10%
heat treatments
10%
water
10%
Keyphrases
Serpent 2
88%
Serpent
68%
Finland
58%
SUBCHANFLOW
54%
Monte Carlo Code
53%
Pin-by-pin
48%
Reactor
34%
District Heating Reactor
33%
Full Core
31%
Neutronics
21%
Burnup Calculation
21%
Thermal-hydraulics
20%
Small Modular Reactor
19%
TRANSURANUS
19%
Kraken
19%
Technical Research
19%
Nuclear Energy
18%
Neutron
17%
Computational Framework
17%
Burnup
15%
Transient Analysis
14%
Depletion Calculation
14%
Fuel Assembly
14%
Monte Carlo Neutron Transport
13%
Radioactive Waste
12%
Nuclear Power Plant
12%
Subchannel
12%
Multiphysics
11%
TRIGA Reactor
11%
Lessons Learned
10%
Thermal Treatment
10%
Reactor Design
10%
Radiation Safety
10%
Engineering
Neutronics
55%
Burnup
39%
District Heating
39%
Transients
37%
Thermal Hydraulics
29%
Subchannel
28%
Fuel Assembly
24%
Energy Engineering
22%
Technical Research Centre
15%
Neutron Transport
15%
Nuclear Power Plant
14%
Small Modular Reactor
14%
Transient Analysis
14%
Good Agreement
14%
Nuclear Reactor
13%
Decay Heat
12%
Reactor Core
11%
Control Rod
11%
Nuclear Energy
10%