Abstract

In this paper evolution of the enrichment factor for zirconium isotopes separation by the laser assisted retardation of condensation has been found for specific choice of iterative policy of isotopes recovery. It has been evaluated for a set of gas flow temperatures, corresponding to its maximal value, provided all values of other important parameters of the system such as gas flow pressure, target gas molar fraction, laser intensity, laser beam radius, irradiation chamber length, and nozzle throat height are fixed. Enrichment factor has been found by solving a set of transport equations for molar fractions of four characteristic groups represented in the gas flow (monomers, dimers, excited monomers, and epithermals) in a static approximation on each iteration.

中文翻译：

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锆同位素分离迭代方案富集因子的演变

摘要

在本文中，发现了通过激光辅助的缩合延迟来分离锆同位素的富集因子，从而可以选择特定的同位素回收迭代策略。如果系统的其他重要参数（例如气体流量压力，目标气体摩尔分数，激光强度，激光束半径，照射室长度，和喷嘴喉高是固定的。通过在每次迭代中以静态近似值求解一组代表气流中四个特征基团（单体，二聚体，激发的单体和超热）的摩尔分数的传输方程，从而找到了富集因子。