标题:
核聚变理论再探及聚变堆的自持燃烧The Investigation of Fusion Theory and Self-Sustained Combustion of the Fusion Reactor
作者:
田树勤, 陈传华
关键字:
核聚变, 磁约束, 电磁辐射, X光反射, 磁镜, 环流器, 箍缩效应Fusion, Magnetic Confinement, X-Ray Reflection, Magnetic Mirror, Tokamak, Pinch Effect
期刊名称:
《Nuclear Science and Technology》, Vol.3 No.2, 2015-04-16
摘要:
根据修正后的狭义相对论,得出通电流等离子体的箍缩效应,本质上是尺缩效应,其并不能对聚变反应起促进作用。对电磁辐射理论的质疑,指出目前的电磁辐射理论并不符合麦克斯韦方程组,再结合聚变实验结果,推测目前的电磁辐射理论低估了聚变堆的辐射能。以上两点揭示了目前核聚变理论与实验形成巨大差异的原因,并得出目前的聚变装置不能实现聚变堆自持燃烧的结论。由此提出了对目前磁约束聚变装置在功能上的改进,将聚变堆包层第一壁设计为具有反射镜的功能,使辐射能重新返回,以达到聚变堆的自加热目的。最后探讨了磁镜与环流器相组合的聚变装置新型,阐述了该装置具有其它磁约束装置不可比拟的优势。Based on the corrected special theory of relativity, the pinch effect has been proved to be length contraction effects for plasma like galvanization. It will not accelerate the fusion reaction. By questioning the electromagnetic radiation theory, the current theory has been approved that it does not fit the Maxwell’s equation. Combined with the testing results of the fusion reaction, the current electromagnetic radiation theory underestimated the radiation power of the fusion reactor. As mentioned above, it revealed the reasons causing the great difference between the current fusion theory and the testing results, and concluded that the current fusion reactor cannot achieve self-sustained combustion. So the improvements on the magnetic confinement devices have been suggested. For achieving self-heating of the fusion reactor, the first wall of the fusion reactor must be designed to reflect the radiation. At last, the new device which combined magnetic mirror and Tokamak has been discussed and its superiority has been approved over the rest of magnetic con-finement devices.