Engineering
Code Performance
100%
Steady-State Model
100%
Fuel Model
100%
Application Code
100%
Reactor Dynamics
100%
Full Scale
50%
Good Agreement
50%
Simple Model
50%
Fuel Rod
50%
Thermal Hydraulics
50%
Power Distribution
50%
Creep Model
50%
Failure Model
50%
Distribution Model
50%
Experimental Measurement
50%
State Temperature
50%
Thermal Reactor
50%
Gas Release
50%
Neutronics
50%
Limitations
50%
Densification
50%
Keyphrases
Multiphysics
100%
Fuel Behavior
100%
FINIX
100%
Behavioral Model
100%
Code Documentation
100%
Application Codes
100%
Fuel Performance Code
25%
Reactor Dynamics
25%
FRAPCON
25%
FRAPTRAN
25%
Steady-state Model
25%
Dynamic Code
25%
Multiphysics Simulation
12%
Serpent 2
12%
Neutronics
12%
Mechanical Behavior
12%
Reactor
12%
Thermal-hydraulics
12%
Halden
12%
Reactor Physics
12%
Material Properties
12%
Experimental Correlation
12%
Heat Transfer
12%
Coolant
12%
Cladding Failure
12%
Fuel Rod
12%
Densification
12%
Transient State
12%
Monte Carlo
12%
Intended Use
12%
Creep Model
12%
Calculation Code
12%
Failure Model
12%
Gap Conductance
12%
Publicly Available
12%
Behavioral Coding
12%
Steady-state Temperature
12%
Pressure Gap
12%
Interconnected Model
12%
Radial Power Distribution
12%
Steady-state Scenario
12%
Source Code Level
12%
Fission Gas Release
12%
Grain Growth Model
12%
Fuel Swelling
12%
Release Model
12%
Power Distribution Model
12%
Steady-state Heat Equation
12%
Thermal Reactor
12%
Behavior Description
12%
Fuel Grain
12%
Thermomechanical Behavior
12%
Hydraulic Dynamics
12%
INIS
applications
100%
interfaces
100%
fuels
100%
documentation
100%
steady-state conditions
55%
cladding
44%
simulation
22%
performance
22%
host
22%
reactor kinetics
22%
failures
11%
comparative evaluations
11%
levels
11%
data
11%
correlations
11%
pellets
11%
monte carlo method
11%
equations
11%
heat
11%
reactors
11%
thermal hydraulics
11%
creep
11%
heat transfer
11%
power distribution
11%
reactor physics
11%
swelling
11%
coolants
11%
fuel rods
11%
fission product release
11%
grain growth
11%
thermal reactors
11%
couplings
11%