Engineering
Performance
100%
Numerical Study
100%
Air Heat Exchanger
100%
Heat Removal
100%
Fin Height
100%
Applications
50%
Optimization
50%
Failure (Mechanical)
50%
Mechanisms
50%
Transport Mechanism
50%
Natural Circulation
50%
Numerical Analysis
50%
Flow Pattern
50%
Moving Part
50%
Frictional Force
50%
Nuclear Power Plant
50%
Temperature Increase
50%
Evaluation Criterion
50%
Core Temperature
50%
Severe Accident
50%
Shutdown
50%
Physics
Air
100%
Performance
100%
Planetary Atmosphere
100%
Utilization
50%
Geometry
50%
Optimization
50%
Temperature
50%
Evaluation
50%
Plant
50%
Failure
50%
Sinks
50%
Numerical Analysis
50%
Circulation
50%
Flow Distribution
50%
Free Convection
50%
Cores
50%
Coolant
50%
INIS
fins
100%
air
100%
numerical analysis
100%
heat exchangers
100%
rhr systems
100%
performance
33%
atmospheres
33%
height
33%
heat transfer
33%
applications
16%
evaluation
16%
geometry
16%
failures
16%
optimization
16%
pumps
16%
sinks
16%
configuration
16%
natural circulation
16%
natural convection
16%
shutdown
16%
oceans
16%
coolants
16%
nuclear power plants
16%
severe accidents
16%
decay heat removal
16%
Material Science
Air
100%
Protective Atmosphere
100%
Heat Transfer
100%
Heat Exchanger
100%
Temperature
50%
Coolant
50%
Natural Convection
50%