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基于球环类型的先进氚生产堆概念设计是聚变能发展的中间应用。与传统托卡马克氚生产堆不同,设计利用球形环的先进等离子体物理性能和紧凑的结构特征,尽量利用真空室内的空间安置氚生产包层以减少氚泄露而提高氚增殖率,达到年产氚量1kg的目标,相应的堆利用因子为40%。主要对球环型产氚聚变堆概念设计中的中子学设计进行计算分析,对于二维中子学计算得到的氚增殖率高于1.68的设计是其它类似设计没有达到的,进一步体现出球环型产氚聚变堆的先进性。
The concept of an advanced tritium production reactor concept based on a ball-type ring is an intermediate application of fusion energy development. Unlike conventional tokamak tritium production heaps, the design utilizes the advanced plasma physical properties and compact structural features of the spherical ring to maximize the tritium multiplication rate by minimizing tritium leakage by placing tritium-producing cladding in the vacuum chamber as much as possible Tritium 1kg target, the corresponding heap utilization factor of 40%. Mainly on the ball ring tritium fusion reactor concept design of neutron design calculation analysis, calculated for two-dimensional neutronics tritium proliferation rate higher than 1.68 design is similar to other design did not reach, and further reflect the ball Ring tritium fusion reactor advanced.