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On the natural convection cooling of advanced reactor vessels
K. H. Haddad
,
Fan-bill B. Cheung
, D. Y. Sohn
Mechanical Engineering
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Dive into the research topics of 'On the natural convection cooling of advanced reactor vessels'. Together they form a unique fingerprint.
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Keyphrases
Advanced Reactors
100%
Reactor Vessel
100%
Natural Convection Cooling
100%
Numerical Results
50%
Heat Transfer
50%
Vertical Channel
50%
High-temperature Heat Transfer
50%
Problem Formulation
50%
Pressure Variation
50%
Flow Transferring
50%
Heat Transfer Performance
50%
Turbulent Natural Convection
50%
Implicit Finite Difference Method
50%
Governing System
50%
Channel Length
50%
Heat Flux Condition
50%
Heat Flux Effect
50%
Abnormal Operating Conditions
50%
Constant Wall Heat Flux
50%
Asymmetric Heating
50%
Low-Reynolds number Turbulence Model
50%
Two Parallel Plates
50%
Engineering
Natural Convection
100%
Reactor Vessel
100%
Heat Flux
66%
Constant Temperature
33%
Finite Difference Method
33%
Problem Formulation
33%
Channel Length
33%
Length Unit
33%
Governing System
33%
Parallel Plate
33%
Chemical Engineering
Natural Convection
100%
Heat Flux
66%