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Indoor radon and thoron from building materials: Analysis of humidity, air exchange rate, and dose assessment

Ahmad Ciptadi Syuryavin, Seong-Jin Park, Muttaqin Margo Nirwono, Sanghoon Lee

2020Nuclear Engineering and Technology45 citationsDOIOpen Access PDF

Abstract

Building materials contribute significantly to the indoor radon and thoron levels. Therefore, parameters that influence the exhalation rates of radon and thoron from building material need to be analyzed closely. As a preliminary study, the effects of humidity on exhalation rates were measured using a system with an accumulation chamber and RAD7 detector for Korean brick, Korean soil, and Indonesian brick. Resulting doses to a person who resides in a room constructed from the building materials were assessed by UNSCEAR method for different air exchange rates. The measurements have revealed that Korean brick exhaled the highest radon and thoron while Indonesian brick exhaled the lowest thoron. Results showed that for a typical low dense material, radon and thoron exhalation rate will increase until reached its maximum at a certain value of humidity and will remain saturated above it. Analysis on concentration and effective dose showed that radon is strongly affected by air exchange rate (ACH). This is showed by about 66 times decrease of radon dose from 0.00 h−1 to those of 0.50 h−1 ACH and decrease by a factor of 2 from 0.50 h−1 to those of 0.80 h−1. In case of thoron, the ACH doesn't have significant effects on effective dose.

Topics & Concepts

RadonBrickEnvironmental scienceExhalationHumidityRelative humidityEffective dose (radiation)CR-39Air humidityEnvironmental chemistryRadiochemistryAtmospheric sciencesChemistryNuclear medicineMeteorologyMaterials scienceComposite materialDetectorGeographyGeologyEngineeringNuclear physicsMedicinePhysicsRadiologyElectrical engineeringRadioactivity and Radon MeasurementsRadioactive contamination and transferRadiation Dose and Imaging
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