The purpose of our work is to find a way for application of depleted uranium inCANDU reactor by using MOX nuclear fuel of depleted U and Pu instead of naturaIuranium.

Development progress of the CEFR-MOX fuel;

On the basis of the introduced experimental information,the process of calcu- lating the effective multiplication factor of MOX fuel experimental reactors using MCNP is introduced.

The time-average and instantaneous calculations of CANFLEX bundle with MOX fuel in a CANDU reactor are performed, and computational results demonstrate that the maximum bundle power and channel power are under the permissible limits.

A quantitative method for determination of U and Ce in simulative MOX fuel samples by binary intensity ratio and X-ray fluorescence spectrometry is studied.

Based on the comparability of the thermodynamics and phase diagrams of U-Ce-O system and U-Pu-O system, and the analysis of the manufacturing simulation technology of MOX fuel pellets, it is possible that the U-Ce-O system is used to simulate the U-Pu-O system in the manufacturing test of MOX fuel pellets.