Validation of a Dose Assessment Method to be Used in Loose Contamination Exercises
Loading...
Date
2019-06-20
Authors
Journal Title
Journal ISSN
Volume Title
Publisher
Abstract
Emergency responders could be exposed to loose radioactive material during a mission. As part of a research project at Texas A&M University, 18F was sprayed in a small area where an Exercise Participant (in protective gear) conducted simulated search activities. A dose assessment tool developed by the researchers was used to estimate doses to the Radiation Worker (mixer and sprayer) and Exercise Participant. The current project aimed to validate the assessment methodology by comparing actual and estimated doses of the two personnel. In the scenario, the Radiation Worker injected and mixed 200 MBq Fludeoxyglucose 18F (FDG) with 470 ml H2O in a commercial weed sprayer. The solution was distributed evenly over a 3 m x 3 m region in 5 min. After 36 min of evaporation, the Exercise Participant entered the area for a total of 22 min. Actual whole body (WB) doses from optically stimulated luminescence (OSL) were 10 ± 2 uSv for both the Radiation Worker and Exercise Participant. WB digital personal dosimeter readings were 4.3 plus or minus 0.4 uSv and 3.3 plus or minus 1.0 uSv for the Radiation Worker and Exercise Participant, respectively. Actual extremity doses to Radiation Worker’s finger dosimeters were < 100 uSv (minimum detectable limit), and to exercise participant’s leg OSL was < 10 uSv. Preliminary dose assessment method was conservative for the Radiation Worker and conservatively accurate for the Exercise Participant. The predicted Radiation Worker doses were 90 uSv to the whole body (WB) and 744 uSv to the hand, both double greater than 2o above the actual exposures. The Exercise Participant’s estimated doses were 7 uSv to the WB and 15 uSv to the knee area, which were in the same order of magnitude as the actual.
Refined dose assessment aimed to predict personnel exposure more exactly and was shown to be accurate. The predicted Radiation Worker doses were 2.8 plus or greater 0.8 uSv to the WB and 21.8 plus or minus 7.5 uSv to the hand. The Exercise Participant’s estimated doses were 5.2 plus or minus 0.5 uSv to the WB and 13.4 plus or minus 1.2 uSv to the knee area. Estimated whole body doses were in the same order of magnitude as the actual doses for both the Radiation Worker and the Exercise Participant. Comparing estimated extremity dose to the actual value was difficult, due to exposures having been below detectable limits, however, there were no obvious inconsistencies.
Description
Keywords
Radiological Emergency, Emergency Response, Training, Loose Contamination, Unsealed Radioactivity, Operational Topics, Radiation Protection, Live Contaminant, Model Validation, Dose Assessment