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Thermal analysis of repository for spent EPR-type fuel
Kari Ikonen
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Dive into the research topics of 'Thermal analysis of repository for spent EPR-type fuel'. Together they form a unique fingerprint.
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INIS
fuels
100%
canisters
100%
thermal analysis
100%
rocks
35%
surfaces
21%
power
21%
decay
14%
volume
14%
panels
14%
numerical analysis
14%
values
7%
control
7%
geometry
7%
design
7%
space
7%
heat
7%
distance
7%
burnup
7%
scattering
7%
heat sources
7%
carbon 10
7%
thermal gradients
7%
nuclear fuels
7%
decay heat
7%
safety margins
7%
thermal diffusivity
7%
after-heat
7%
cooling time
7%
Engineering
Tunnel
100%
Dimensioning
33%
Maximum Temperature
33%
Safety Margin
33%
Source Model
33%
Control Volume
33%
Cooling Time
33%
Thermal Gradient
33%
Actuator
33%
Thermal Diffusivity
33%
Heat Sources
33%
Decay Heat
33%
Nuclear Fuel
33%
Keyphrases
Canister
100%
Thermal Analysis
100%
Olkiluoto
14%
Numerical Analysis
14%
Maximum Temperature
7%
Surface Temperature
7%
Heat Release
7%
Thermal Gradient
7%
Surrounding Rock
7%
Analytic Model
7%
Nuclear Fuel
7%
Burnup
7%
Disintegration
7%
Safety Margin
7%
Design Temperature
7%
Thermal Diffusivity
7%
Vertical Position
7%
Decay Heat
7%
Cooling Time
7%
KBS-3V
7%
Rock Resistivity
7%
Analysis Parameters
7%
Horizontal Tunnel
7%
Tunnel Spacing
7%
Rectangular Geometry
7%
Adjacent Tunnel
7%
Decay Power
7%
Control Volume Method
7%
Line Heat Source
7%
Heat Source Model
7%
Allowable Temperature
7%
Surrounding Rock Mass
7%
Residual Heat
7%
Rock Volume
7%
Precooling
7%
Earth and Planetary Sciences
Can
100%
Electron Paramagnetic Resonance
100%
Thermal Analysis
100%
Nuclear Fuel
7%
Actuator
7%