A cost-based systems analysis of long-pulsed versus steady-state tokamak reactors

A cost-based systems analysis of long-pulsed versus steady-state tokamak reactors

A cost-based, comparative systems analysis of a steady-state (SS) versus hybrid-pulsed (HP) fusion tokamak power plant indicates that the latter is 10-20% more expensive on the basis of total cost of energy. Balancing this added cost are considerably reduced current-drive requirements and a somewhat...

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Bibliographische Detailangaben
Hauptverfasser: Krakowski, R.A., Miller, R.L., Bathke, C.G.
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Coils
Cost function
Fatigue
Flexible printed circuits
Inductors
Plasma confinement
Plasma stability
Plasma temperature
Steady-state
Tokamaks
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Zusammenfassung:A cost-based, comparative systems analysis of a steady-state (SS) versus hybrid-pulsed (HP) fusion tokamak power plant indicates that the latter is 10-20% more expensive on the basis of total cost of energy. Balancing this added cost are considerably reduced current-drive requirements and a somewhat alleviated divertor heat-flux problem. Contributions to this penalty are made on a nearly equal basis by the added FPC (fusion power core), TS (thermal storage), and ETS (energy transfer and storage) costs, with the former being a major contributor to the fusion-related energy-production costs for both SS and HP options. Even with the elimination of CD cost for the HP option, the added FPC, TS, and ETS costs would contribute a approximately 25% tariff to fusion-related costs for exploiting potential physics (eased current drive) and engineering (eased steady-state diverter and plant power handling) advantages.< >
DOI:10.1109/FUSION.1991.218675