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Pulse power technology applied to proton beam fusion

机译:脉冲功率技术应用于质子束聚变

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It is the aim of this paper to design a fusion power plant whose electric output power is 1 GW, and to find a way for breaking through fusion technically and energy-economically. Pulse power supply system of 36 modules, whose stored energy is 46.8 MJ, launches sir proton beams, which have the total energy of 12 MJ, pulse width 30 ns, and partic1e energy of 4 MeV. Because of the low quality of proton beams, the beams are charge-neutralized by the co-moving electron beams. The co-moving electron beam has the net current --50 th, and the Lorentz force confines the beam in a small radius in the metal guide. The target should be indirect driven and its radius should be large. The target with the radius of 8.7 mm is the spherical cryogenic hollow one, which has double shells and five layers. The reactor has double solid walls. The inner wall rotates around the and to induce a centrifugal acceleration. Flibe as the coolant protects the solid walls from damage and breeds tritium.
机译:本文的目的是设计一种电力输出功率为1 GW的聚变电站,并找到在技术上和能源经济上突破聚变的方法。 36个模块的脉冲电源系统(存储的能量为46.8 MJ)发射sir质子束,其总能量为12 MJ,脉冲宽度为30 ns,粒子能量为4 MeV。由于质子束的质量较低,因此束流被共同移动的电子束电荷中和。共同移动的电子束的净电流为-50 th,洛伦兹力将电子束限制在金属导板上的小半径内。目标应为间接驱动,并且其半径应较大。半径为8.7 mm的目标是球形低温空心空心球,它具有双壳和五层。反应器具有双实心壁。内壁绕旋转,并引起离心加速度。作为冷却剂的氟利昂可保护固体壁免受损坏并滋生tri。

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