Title of article :
Prototype tokamak fusion reactor based on SiC/SiC composite material focusing on easy maintenance
Author/Authors :
Nishio، نويسنده , , S and Ueda، نويسنده , , S and Kurihara، نويسنده , , R and Kuroda، نويسنده , , T and Miura، نويسنده , , H and Sako، نويسنده , , K and Takase، نويسنده , , H and Seki، نويسنده , , Y and Adachi، نويسنده , , J and Yamazaki، نويسنده , , S and Hashimoto، نويسنده , , T and Mori، نويسنده , , S and Shinya، نويسنده , , K and Murakami، نويسنده , , Y and Senda، نويسنده , , I and Okano، نويسنده , , K and Asaoka، نويسنده , , Y and Yoshida، نويسنده , , T، نويسنده ,
Issue Information :
روزنامه با شماره پیاپی سال 2000
Pages :
9
From page :
271
To page :
279
Abstract :
If the major part of the electric power demand is to be supplied by tokamak fusion power plants, the tokamak reactor must have an ultimate goal, i.e. must be excellent in construction cost, safety aspect and operational availability (maintainability and reliability), simultaneously. On way to the ultimate goal, the approach focusing on the safety and the availability (including reliability and maintainability) issues must be the more promising strategy. The tokamak reactor concept with the very high aspect ratio configuration and the structural material of SiC/SiC composite is compatible with this approach, which is called the DRastically Easy Maintenance (DREAM) approach. This is because SiC/SiC composite is a low activation material and an insulation material, and the high aspect ratio configuration leads to a good accessibility for the maintenance machines. As the intermediate steps along this strategy between the experimental reactor such as international thermonuclear experimental reactor (ITER) and the ultimate goal, a prototype reactor and an initial phase commercial reactor have been investigated. Especially for the prototype reactor, the material and technological immaturities are considered. The major features ofthe prototype and commercial type reactors are as follows. The fusion powers of the prototype and the commercial type are 1.5 and 5.5 GW, respectively. The major/minor radii for the prototype and the commercial type are of 12/1.5 m and 16/2 m, respectively. The plasma currents for the prototype and the commercial type are 6 and 9.2 MA, respectively. The coolant is helium gas, and the inlet/outlet temperatures of 500/800 and 600/900°C for the prototype and the commercial type, respectively. The thermal efficiencies of 42 and 50% are obtainable in the prototype and the commercial type, respectively. The maximum toroidal field strengths of 18 and 20 tesla are assumed in the prototype and the commercial type, respectively. The thermal conductivities of 15 and 60 W/m per K are assumed in the prototype and the commercial type, respectively.
Keywords :
DREAM tokamak , Helium gas cooling , Very high aspect ratio , SiC/SiC composite
Journal title :
Fusion Engineering and Design
Serial Year :
2000
Journal title :
Fusion Engineering and Design
Record number :
2350906
Link To Document :
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