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Tokamak cooling systems and power conversion system options
I. Moscato
*
, L. Barucca
, E. Bubelis
, G. Caruso
, S. Ciattaglia
, C. Ciurluini
, A. Del Nevo
, P. A. Di Maio
, F. Giannetti
, W. Hering
, P. Lorusso
, E. Martelli
, V. Narcisi
,
Sixten Norrman
, T. Pinna
, S. Perez-Martin
, A. Quartararo
, Marton Szogradi
, A. Tarallo
, E. Vallone
*
Corresponding author for this work
BA4502 Nuclear power plant analysis
European Consortium for the Development of Fusion Energy (EUROfusion)
Ansaldo Energia S.p.A.
Karlsruhe Institute of Technology (KIT)
Sapienza University of Rome
National Agency for New Technologies, Energy and Sustainable Economic Development (ENEA)
University of Palermo
University of Naples Federico II
Research output
:
Contribution to journal
›
Article
›
Scientific
›
peer-review
44
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Keyphrases
Tokamak
100%
Cooling System
100%
Balance of Plant
100%
Cooling Power
100%
Electric Utilities
100%
Utility Grid
100%
Power Conversion System
100%
System Conversion
100%
In-vessel
50%
Concept Design
50%
Nuclear Fusion
50%
Blanket
50%
Fusion Power Plant
50%
Coolant
50%
System Architecture
50%
Design Approach
50%
Early Design Phases
50%
Flexible Operation
50%
Plant Systems
50%
Top Level
50%
Transport Chain
50%
Conceptual Design Phase
50%
Reliable Operation
50%
Power Conversion
50%
Heat Transport
50%
Generation Side
50%
Conversion Chain
50%
Fusion Power
50%
Time-dependant
50%
Design Improvement
50%
Robust Solution
50%
Power Fluctuation
50%
Grid Architecture
50%
Nuclear Licensing
50%
Feasible Operation
50%
Pulsed Operation
50%
INIS
design
100%
power
100%
conversion
100%
tokamak devices
100%
cooling systems
100%
operation
80%
architecture
60%
grids
60%
chains
40%
balances
40%
electric utilities
40%
solutions
20%
efficiency
20%
assessments
20%
levels
20%
pulses
20%
plasma
20%
constraints
20%
vessels
20%
availability
20%
fusion (nuclear)
20%
heat transfer
20%
compatibility
20%
fluctuations
20%
thermonuclear power plants
20%
coolants
20%
criticality
20%
licensing
20%
Engineering
Concept Design
100%
Fusion Power
100%
Electric Utility
100%
Power Conversion System
100%
Tokamak Device
100%
Cooling System
100%
Operation Mode
50%
Power Conversion
50%
Design Stage
50%
Plant System
50%
Power Fluctuation
50%
Heat Transport
50%
Reliable Operation
50%
Level Requirement
50%
Robust Solution
50%
Design Phase
50%
Electric Power Plant
50%