![]() ![]() The presented model makes it possible to solve the problem concerning the plasma potential distribution in the case of an arbitrary number of end electrodes, and also to take into account the inhomogeneity of the distribution of plasma density, neutral gas pressure and electron temperature along the radius. A comparison of the computational model results with experimental data is given. To verify the proposed model, an experimental study of the reflex discharge is carried out with both cold electrodes and a thermionic element on the axis. The influence of a thermionic element on the radial profile of the plasma potential is considered. The contribution of ions and electrons to the transverse conductivity is evaluated in detail. The most commonly encountered configurations of the electrical connection for the end electrodes are considered, and the particular solutions to the problem of the radial distribution are presented. ![]() A model which solves the problem of the radial distribution of the plasma potential inside the cylindrical plasma column supported by the end electrodes is proposed. In the present paper, an axially symmetric system is considered in which the magnetic field is directed along the axis and concentric electrodes are located at the ends. As a magnetic field primarily allows for creating electric fields in plasma, it serves as an additional obstacle for the current flow through a medium. The possibility of controlling the electrostatic field distribution in plasma has yielded wide prospects for modern technologies. We will present the plasma physics basis for theįilter effect, the fundamental parameter constraints, and modeling Scheduled to be vitrified (immobilized and stored in glass) at HanfordĪre below mass number 60 while 99.9the radioactivity comes from atomsĪbove mass number 89. The potential waste reduction is dramatic because 82 wtpresently Which is storing sixty percent of the nation’s defense nuclear Volume of radioactive waste at the Hanford Site in Richland, Washington, This technology could significantly reduce the System: good single-pass separation, acceptable energy cost per ion, and The Archimedes Plasma Massįilter satisfies all of the requirements of an economic mass separator Magnetic and electric field configuration that acts as a low-mass-passįilter for ions. The filter is a plasma device employing a Ion by ion into mass groups and as such represents a major advance in The Archimedes Plasma Mass Filter, which can separate a waste mixture Archimedes Technology Group is developing a plasma technology, called ![]()
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