Nano-Hetero Structure for direct energy conversion

L. Popa-Simil
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引用次数: 1

Abstract

The direct conversion of nuclear energy becomes possible in hetero-nanostructures. To convert the kinetic energy of the fission product into electricity it has to be created a nanostructure formed from a repetitive conductorinsulator structure generically called “CIci”.Its operation is based on the difference of electron shower intensity between the two conducting materials which makes that the electrons generated in the first conductor to pass through insulator and absorb in the second conductor, while this one producing a very small shower to pass in the next conductor so the conductors are polarizing. The conversion efficiency of such structures may be higher than 80%, and can be improved by quantum effects. To deliver the harvested energy outside the reactor zone a cascade of DC/AC and AC/AC micro converters have to be added at short distances inside. Because the fission energy transforms into electricity there is less energy left for heating the structure so the reactor will run cold. If superconductor structures is used the DC/AC converter may be achieved by using a SQUID Josephson junction. The direct nuclear energy conversion removes the actual thermo-mechanic devices with associated heat exchangers with higher efficiency, transforming the nuclear reactor into a solid-state electricity generator.
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用于直接能量转换的纳米异质结构
在异质纳米结构中,核能的直接转化成为可能。为了将裂变产物的动能转化为电能,必须创造一种由重复导体-绝缘体结构形成的纳米结构,这种结构通常被称为“CIci”。它的工作原理是基于两种导电材料之间的电子阵雨强度的差异,这使得在第一个导体中产生的电子通过绝缘体并吸收到第二个导体中,而这个导体产生很小的阵雨通过下一个导体,所以导体是极化的。这种结构的转换效率可能高于80%,并且可以通过量子效应来提高。为了将收集到的能量输送到反应堆区域外,必须在反应堆内部短距离处增加直流/交流和交流/交流微型转换器的级联。因为裂变能转化成电能,所以用来加热结构的能量就少了,这样反应堆就会变冷。如果使用超导体结构,则可以通过使用SQUID约瑟夫森结来实现DC/AC变换器。核能直接转换省去了实际的热机装置和相关的热交换器,效率更高,将核反应堆转变为固态发电机。
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