Journal
RADIATION PROTECTION DOSIMETRY
Volume 199, Issue 18, Pages 2229-2232Publisher
OXFORD UNIV PRESS
DOI: 10.1093/rpd/ncad147
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In nuclear facilities, false alarms in airborne contamination surveillance, mainly for artificial alpha, are often caused by sudden variations in the aerosol mass sizes distribution. Experiments comparing measured and estimated values based on aerosol characteristics have shown significant improvements, highlighting the importance of considering aerosol characteristics for accurate airborne contamination measurement.
In nuclear facilities, the mandatory airborne contamination surveillance is operated by continuous air monitors (CAMs). It samples the ambient air on a filter and measures the deposited activity. It is designed to trig an alarm whenever the measured activity concentration exceeds a defined threshold. However, in some sites, such as dismantling nuclear sites, a high rate of false alarm is experienced, mainly for artificial alpha. It has been shown that false alarms are directly related to a sudden variation of the aerosol mass sizes distribution, i.e. a wrong detection limit (DL) evaluation. Experiments on the ICARE tests bench have been carried out to compare the CAM's DL and an estimated DL as a function of the aerosol characteristics, to the measured one. This new estimation shows significant improvements over the previous one and highlights the need to consider aerosol characteristics for a correct airborne contamination measurement.
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