Add to ORKGThe impact of the neutron wall load as well as the lifetime and operating temperature of the structural material on tokamak reactor economics was investigated and a comparative study of stainless steel and vanadium alloys was performed. In order to limit the fractional increase in the cost of energy due to the plant downtime, t, for replacement of the structural material to 6, the structure lifetime, T, must be greater than t/6 where T and t are in years. Economically attractive tokamak reactors produce a neutron wall load of 3-4 MW/m * for 3000 MW thermal power. The cost of energy is optimized by an operating temperature of the structural material in the wall/blanket in the range 475-500°C for stainless steel and 620-66O'C for vanadiu...
a r t i c l e i n f o be exposed to plasma particles and electromagnetic radiation and will be suffe...
Key features of fusion energy relate primarily to potential advantages associated with safety and en...
Vanadium alloys exhibit important advantages as a candidate structural material for fusion first wal...
Development of fusion technology Is a long-term objective of the European Community, covering the co...
[[abstract]]Several structural materials, including Type 316 stainless steel, Fe-Cr martensitic stee...
Vanadium alloys have been identified as a leading candidate low- activation structural mateiral for ...
A critical analysis is presented of the operating temperature windows for nine candidate fusion reac...
[[abstract]]The severe effects of radiation damage and the poor thermal conductivity of type 316 sta...
A critical analysis is presented of the operating temperature windows for 9 candidate fusion reactor...
An overview is given on the state-of-the-art of materials that are presently the basis of commercial...
Nuclear fusion can be one of the most attractive sources of energy from the viewpoint of safety and ...
The mineral resource implications of an economy of tokamak-type fusion reactors are assessed based u...
It has long been recognized that attainment of the safety and environmental potential of fusion ener...
Many R&D programs are being conducted worldwide to study and, in some cases, develop materials with ...
Materials performance and reliability are key issues for the safety and competitiveness of future nu...
a r t i c l e i n f o be exposed to plasma particles and electromagnetic radiation and will be suffe...
Key features of fusion energy relate primarily to potential advantages associated with safety and en...
Vanadium alloys exhibit important advantages as a candidate structural material for fusion first wal...
Development of fusion technology Is a long-term objective of the European Community, covering the co...
[[abstract]]Several structural materials, including Type 316 stainless steel, Fe-Cr martensitic stee...
Vanadium alloys have been identified as a leading candidate low- activation structural mateiral for ...
A critical analysis is presented of the operating temperature windows for nine candidate fusion reac...
[[abstract]]The severe effects of radiation damage and the poor thermal conductivity of type 316 sta...
A critical analysis is presented of the operating temperature windows for 9 candidate fusion reactor...
An overview is given on the state-of-the-art of materials that are presently the basis of commercial...
Nuclear fusion can be one of the most attractive sources of energy from the viewpoint of safety and ...
The mineral resource implications of an economy of tokamak-type fusion reactors are assessed based u...
It has long been recognized that attainment of the safety and environmental potential of fusion ener...
Many R&D programs are being conducted worldwide to study and, in some cases, develop materials with ...
Materials performance and reliability are key issues for the safety and competitiveness of future nu...
a r t i c l e i n f o be exposed to plasma particles and electromagnetic radiation and will be suffe...
Key features of fusion energy relate primarily to potential advantages associated with safety and en...
Vanadium alloys exhibit important advantages as a candidate structural material for fusion first wal...