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  • Safety conditions for irradiation, transporting, and melting of sintered TeO2 during the industrial production of 131I.

Safety conditions for irradiation, transporting, and melting of sintered TeO2 during the industrial production of 131I.

Health physics (2004-06-29)
José Alanís, A Segovia, M Navarrete
ABSTRACT

The development of a program to produce 131I by neutron activation of previously sintered TeO2, was started at the Nuclear Center of Mexico 3 y ago. Since then, the problems related to producing high purity, sintered TeO2 for neutron activation, transport of the activated samples and melting of the samples to retrieve the 131I have been satisfactorily solved. The main problems, related to health physics, arise when the process is conducted on a daily basis. Described are the irradiation conditions for sintered TeO2, retrieval of the sample from the pool, and the transport of the radioactive source after a 4-d cooling time. The radiation dose in the room where the hot cell is located increases from 2 microSv h(-1) (0.2 mrem h(-1)) to 4 microSv h(-1) (0.4 mrem h(-1)) during the melting of the radioactive (131+131m)TeO2, and the pumping out and dissolution of gaseous 131I. These measurements are below the maximum permissible levels and the ALARA concept has been assured through each step of the process and no leaks have been found in the system.

MATERIALS
Product Number
Brand
Product Description

Sigma-Aldrich
Tellurium dioxide, ≥97.0%
Sigma-Aldrich
Tellurium dioxide, ≥99%
Sigma-Aldrich
Tellurium dioxide, 99.995% trace metals basis