放射性同位素磁力流体动力学(RMHD)功率
储存在几克放射性同位素中的能量可能是足够的能量,长时间生产出许多千瓦的电力。可以使用它们产生的离子利用放射性同位素内的隐藏能量。这些离子是称为“等离子体”的第4个物质状态,并且当通过磁场引导时,诱导和进行电流。在传统的动态发生器中,电子在类似的庄园中泵送。
动态发生器电枢线中的电子在磁场的影响下被迫在一个方向上行进。通过磁场的移动电导体将动态地产生电力。电动电流在通过磁力线切割的电线中产生。沿线长度的电子浪涌设定了线的端部之间的电压差。动态发电机将移动电枢线的动能转换成电能。必须保持旋转线以产生电力。这是通过将轴附接到电枢来完成并将其与蒸汽或水驱动的涡轮机驱动。
传统的磁流体动力(磁流体动力)系统使用high-velocity electrically conducting gas to produce electrical power. These systems are classified as direct because the rotating generator electrodynamic mechanisms are replaced with a flowing electrically conductive gas. In the MHD channel the electrons in the hot plasma gas are deflected under the influence of a magnetic field applied perpendicular to its flow, the electrons move through the gas and are deflected to one of the electrodes that carries the electrical current to the load. The advantage here over a conventional dynamic generator is that there are no moving parts, except for the flowing charged gas ions through the magnetic field.
通常,该系统依赖于化石燃料燃烧器。与该系统相关的问题很多,使其不切实际。一个缺点是燃烧的化石燃料很脏。这根本是不可接受的。此外,所涉及的高温是一种技术难题,高燃烧温度导致生产氮的氧化物必须除去。除去硫和氮的足够设计是值得有问题的。
Through my research with radiant energy I have discovered a solution to the objectionable problems inherent in MHD systems. In recent days I have been working on my own Radioisotopic Magnetohydrodynamic (RMHD) design that gets its energy from the ions that are expelled from the surface of radioisotopic material, but unlike the conventional MHD system, there is no heat, and there is no chemical reaction with the electrodes to be concerned about. Nothing has to be burned and there is no dirty by-products generated.
参考:Patrick J. Kelly的“自由能源”设备的实用指南, excerpts Part 8; pages 9 & 10 from
