Abatement of xenon and iodine emissions from medical isotope production facilities

The capability of the International Monitoring System (IMS) to detect xenon from underground nuclear explosions is dependent on the radioactive xenon background. Adding to the background, medical isotope production (MIP) by fission releases several important xenon isotopes including xenon-133 and io...

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Bibliographic Details
Published in:Journal of environmental radioactivity 2014-04, Vol.130, p.33-43
Main Authors: Doll, Charles G., Sorensen, Christina M., Bowyer, Theodore W., Friese, Judah I., Hayes, James C., Hoffmann, Emmy, Kephart, Rosara
Format: Article
Language:English
Subjects:
07 ISOTOPE AND RADIATION SOURCES
Abatement
abatement, emissions
Air Pollutants, Radioactive - analysis
Air Pollution, Radioactive - prevention & control
Applied sciences
Atmospheric pollution
Environmental Restoration and Remediation
Exact sciences and technology
Iodine
Iodine Radioisotopes - analysis
iodine, xenon-133
Medical Isotope Production
Molybdenum-99
Noble gas
Pollution
Xenon Radioisotopes - analysis
Xenon-133
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Summary:The capability of the International Monitoring System (IMS) to detect xenon from underground nuclear explosions is dependent on the radioactive xenon background. Adding to the background, medical isotope production (MIP) by fission releases several important xenon isotopes including xenon-133 and iodine-133 that decays to xenon-133. The amount of xenon released from these facilities may be equivalent to or exceed that released from an underground nuclear explosion. Thus the release of gaseous fission products within days of irradiation makes it difficult to distinguish MIP emissions from a nuclear explosion. In addition, recent shortages in molybdenum-99 have created interest and investment opportunities to design and build new MIP facilities in the United States and throughout the world. Due to the potential increase in the number of MIP facilities, a discussion of abatement technologies provides insight into how the problem of emission control from MIP facilities can be tackled. A review of practices is provided to delineate methods useful for abatement of medical isotopes. •Radioxenon released from medical isotope production (MIP) has potential to interfere with detection of nuclear explosions.•Xenon and iodine chemistry are discussed to provide insight into how emission control of MIP facilities can be approached.•We review abatement practices to delineate methods useful for abatement of radioactive xenon and iodine produced during MIP.
ISSN:0265-931X
1879-1700
DOI:10.1016/j.jenvrad.2013.12.006