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Calibration experiments for radon in drinking water measurements using portable-type electrostatic-collection radon monitors.

Masahiro HosodaYasutaka OmoriHiroki HashimotoMaho MatsumotoYumi YasuokaTetsuya SanadaYuki OdaMizuki KisoAoi SampeiChutima KranrodHirofumi TazoeNaofumi AkataYasuyuki TairaYuki TamakumaRyohei YamadaHiromi KudoMayumi ShimizuShinji Tokonami
Published in: Radiation protection dosimetry (2023)
Portable-type electrostatic-collection radon monitors (RAD7) are often used for in-situ measurements of radon in water. In this study, we evaluated the calibration factors and their uncertainties for two RAD7 monitors based on comparative measurements with the liquid scintillation counting method. In the first experiment, we found that both RAD7 monitors had relatively large uncertainties due to leakage of radon gas that bubbled from the gaps between the lids of the desiccant container and the glass vial. Therefore, for the second experiment, these gaps were closed as much as possible using parafilm and clay, respectively. As a result, the relative uncertainties for both RAD7 monitors were significantly decreased. Furthermore, we collected spring water samples to confirm the reliability of radon concentrations. After closing the leakage point, the uncertainty of radon concentrations in spring water we measured using the typical protocol of the RAD7 were significantly lower, which improves the measurement.
Keyphrases
  • dna damage
  • dna repair
  • drinking water
  • low cost
  • randomized controlled trial
  • oxidative stress
  • molecular dynamics simulations
  • risk assessment
  • health risk assessment
  • ionic liquid