Abstract
The isotope separation processes in the high-frequency plasma centrifuge operating in the withdrawal mode are studied. The rotation of weakly ionized plasma is provided by a rotating magnetic field, and the axial countercurrent flow (circulation) is caused by a traveling magnetic field. The dependences of the overall enrichment factor and the separation capacity of a plasma centrifuge on a product flow rate are calculated. The case when a separation column is operated in a symmetrical mode is considered. The optimum characteristics of the separation device are discussed. It is shown that there is the optimal value of a product flow rate at which the maximum value of the separative power of a plasma centrifuge is reached.
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