Theoretical Analysis of Ternary UF₆ Gas Isotope Separation by Centrifuge

抄録

This paper concerns a theoretical analysis of the isotope separation in a centrifuge for the ternary gas mixture which includes ²³⁶U besides ²³⁵U and ²³⁸U.
The expressions for the diffusion velocities are used to derive diffusion equations in terms of the mole concentration and of the mass average velocity. The concentration dis-tributions of the ternary UF₆ gas isotopes are calculated by numerically integrating the above diffusion equations with the aid of a flow field for an appropriate model centrifuge.
A value function for two of any species in a multicomponent mixture is defined as a natural extension of the value function for a binary mixture. Furthermore, a total value function for the whole multicomponent mixture is defined as a linear combination of the obtained value function. The results of numerical calculations show that the total separa-tive power for the ternary gas isotopes mixture derived from the total value function is an effective expression for the evaluation of centrifuge separation performance.