Abstract
Unsteady-state UF6 desublimation into a vertical immersed tank 6.0 × 10–2 m3 in volume with horizontal internal ribs has been numerically modeled using an in-house developed software-implemented two-dimensional mathematical model. The dependences of the characteristics of UF6 desublimation on the pressure and temperature of gaseous UF6 in the collector; the coolant temperature; and the number, arrangement, and geometry of the ribs in the tank are described. It is shown that increasing the number of ribs, changing the heat- and mass-transfer conditions, and increasing the diameter of the central openings in the horizontal ribs significantly increase the average productivity of the tank and decrease its filling time.
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