Publication date: June 2016
Source:Journal of Environmental Radioactivity, Volume 157
Author(s): Frédéric Perrier, Jean Aupiais, Frédéric Girault, Tadeusz A. Przylibski, Hélène Bouquerel
Measuring radium-226 concentration in liquid samples using radon-222 emanation remains competitive with techniques such as liquid scintillation, alpha or mass spectrometry. Indeed, we show that high-precision can be obtained without air circulation, using an optimal air to liquid volume ratio and moderate heating. Cost-effective and efficient measurement of radon concentration is achieved by scintillation flasks and sufficiently long counting times for signal and background. More than 400 such measurements were performed, including 39 dilution experiments, a successful blind measurement of six reference test solutions, and more than 110 repeated measurements. Under optimal conditions, uncertainties reach 5% for an activity concentration of 100 mBq L−1 and 10% for 10 mBq L−1. While the theoretical detection limit predicted by Monte Carlo simulation is around 3 mBq L−1, a conservative experimental estimate is rather 5 mBq L−1, corresponding to 0.14 fg g−1. The method was applied to 47 natural waters, 51 commercial waters, and 17 wine samples, illustrating that it could be an option for liquids that cannot be easily measured by other methods. Counting of scintillation flasks can be done in remote locations in absence of electricity supply, using a solar panel. Thus, this portable method, which has demonstrated sufficient accuracy for numerous natural liquids, could be useful in geological and environmental problems, with the additional benefit that it can be applied in isolated locations and in circumstances when samples cannot be transported.
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