The water-cooled divertor design is characterized by features and layout, which are common to several fusion tokamak devices. Pressurized water is used to exhaust power and cool down vertical targets where the strike point of the plasma legs is located, and the Cassette Body Water has many advantages over Helium as a coolant with excellent heat transfer properties, abundant resources and extensive application experiences in both fusion experimental devices and fission reactors. In this chapter the following points will be discussed for the water-cooled divertor option: Divertor architecture design; Plasma facing components; nuclear behavior; thermo-hydraulics; Safety.
Water-cooled divertor option and limitations / Mazzone, G., You, J.-H., Bromley, J., Imbriani, V., Marzullo, D., Quartararo, A., Vallone, E., Villaria, R.. - (2024), pp. 161-169. [10.1016/b978-0-443-13629-0.00076-9]
Water-cooled divertor option and limitations
Marzullo, D.;
2024-01-01
Abstract
The water-cooled divertor design is characterized by features and layout, which are common to several fusion tokamak devices. Pressurized water is used to exhaust power and cool down vertical targets where the strike point of the plasma legs is located, and the Cassette Body Water has many advantages over Helium as a coolant with excellent heat transfer properties, abundant resources and extensive application experiences in both fusion experimental devices and fission reactors. In this chapter the following points will be discussed for the water-cooled divertor option: Divertor architecture design; Plasma facing components; nuclear behavior; thermo-hydraulics; Safety.Pubblicazioni consigliate
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