N. N. Semashko scite author profile

Physical plasma method of separation by mass of the constituent elements together with chemical methods could find application in the fuel cycle of fast recators. These methods could also be useful for separating decay products during reprocessing of spent fuel of existing reactors and in the solution of questions concerning safety and nonproliferation. A possible plasma separation scheme is presented: solid-state material is transferred in a magnetic field into a low-temperature plasma flow and ions in a prescribed mass range are selectively accelerated and then spatially separated in a toroidal magnetic field.The problems of nuclear materials handling arise beause it is necessary to separate the initial material with a complicated composition into groups of elements in order to obtain products which are suitable for subsequent use or disposal. Ordinarily, this is accomplished by dissolving solid nuclear material and then separating the components. Radiochemical methods have their undoubted advantages and disadvantages, specifically, due to the formation of a large quantity of radioactive wastes when the spent fuel is reprocessed.The types of nuclear materials are diverse. They can be spent nuclear fuel or radioactive wastes. They can differ according to the degree of burnup, storage time, and technical state. Methods for handling these materials must take account of all their characteristics, be ecologically clean, and meet the requirements of the nonproliferation principle.The idea of using the plasma state of a material to develop a universal method for reprocessing wastes was advanced in the middle of the twentieth century. It was suggested that a thermal nuclear reactor be used for this [1]. Now, it is suggested that a low-temperature plasma be used for these purposes. Commercial reprocessing of toxic and other wastes by plasma methods is being considered [2]. Full-scale investigations of isotope separation by plasma methods have been performed [3]. The technological processes using low-temperature plasma have been developed and are used in the nuclear fuel cycle [4]. A plasma technology is proposed and used for reprocessing radioactive wastes [4,5].A long-term program for developing nuclear power requires the development of fast reactors with a solution of the problems of fuel balance, economics, and safety. Elimination of the isotopic separation of uranium and separation of plutonium from the uranium is a necessary condition for nuclear power to be proliferation resistant. In contrast to chemical methods, physical plasma separation methods without high resolution with respect to atomic mass can meet this condition.

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N. N. Semashko

The development of a negative ion beam plasma neutralizer for ITER NBI

Ion and Atomic Beams for Controlled Fusion and Technology

Plasma separation of the elements applied to nuclear materials handling

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