Retention efficacy and release of radioiodine in fume hoods

Procedures to determine the release of hazardous gaseous substances including radioactive iodine are covered by different norms such as the European standard EN 14175 and the German national standard DIN 25466. The detection of sulphur hexafluoride (SF6) is required to comply with the prescribed met...

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Published inJournal of environmental radioactivity Vol. 166; no. Pt 1; pp. 175 - 180
Main Authors Schomäcker, K., Fischer, T., Zimmermanns, B., Bregulla, J., Sudbrock, F., Prante, O., Drzezga, A.
Format Journal Article
LanguageEnglish
Published England Elsevier Ltd 01.01.2017
Subjects
Air Pollutants, Radioactive - analysis
Air Pollution, Indoor - analysis
DIN standards
Fume hood
Hazardous Substances - analysis
Iodine Radioisotopes - analysis
Limit of Detection
Radioiodine
Radioiodine retention
Ventilation - instrumentation
Ventilation - methods
Fume hood
Radioiodine retention
Radioiodine
DIN standards
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Summary:Procedures to determine the release of hazardous gaseous substances including radioactive iodine are covered by different norms such as the European standard EN 14175 and the German national standard DIN 25466. The detection of sulphur hexafluoride (SF6) is required to comply with the prescribed methodology. The detection limit of this test is 4.5·10−7 mol/m3 in exhaust air. This detection limit would represent a very high activity in the region of 0.27 TBq/m3 leading to an unacceptable risk. We therefore developed a test using a filter system, consisting of a combination of filters capable of separating various chemical forms of airborne radioiodine. Air samples were collected directly in front of the fume hood and in the laboratory beside two different fume hoods of a similar construction with a final activated carbon filter for retention of radioiodine. Particular attention was therefore paid to air samples taken after passage over the filters. Significant differences in the degree of retention of iodine were found between the two fume hoods investigated. In one test a malfunction of the fume hood was demonstrated. In this case 0.148 × 10−3% of the total released activity per m3 air was found 1 cm in front of the hood sash. A remarkably high fraction of the activity released in the fume hood (1.3 × 10−3%/m3 air) was measured after the activated carbon filter. In the ambient air, values of up to 8.6 × 10−6% pro m3 laboratory air sampled were measured, despite a 6–8-fold air exchange. The selected procedure is a factor of 1011 (Schomäcker et al., 2001) more sensitive than the standard recommended methods (EN 14175). The standard test prescribed by the DIN/EN failed to reveal any inadequacy in the protective function of the radionuclide hood with respect to radioiodine retention. •The retention efficiency of fume hoods in which radioactivity is handled was tested.•The test prescribed by international standards uses chemical substances which are proven to be inadequate.•We propose an alternative method of testing fume hoods in laboratories where radionuclides are handled.
ISSN:0265-931X
1879-1700
DOI:10.1016/j.jenvrad.2016.01.006