Modeling of Radon and Its Short-Lived Decay Products during Showering: Dose to Adult Members of the Public

R. Rabi, L. Oufni, Khamiss Cheikh, El-Houcine Youssoufi, H. Badry, Y. Errami
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引用次数: 2

Abstract

Human exposure to radon inside different parts of the house has become a great concern. In this study, the distribution of radon and its decay inside the shower will be numerically investigated. In fact, the radon concentration in water is measured through the use of AlphaGUARD. They are used as an input for CFD simulation. The numerical results proved that temperature and humidity have significant impacts on both radon content and distribution. Also, the equilibrium factor variations between radon and its progeny with the temperature and relative humidity were carefully looked at. The equivalent doses due to 218Po and 214Po were evaluated in different tissues of the respiratory tract of the members of the public from the inhalation of air inside the shower. The annual effective dose due to radon short lived decay from the inhalation of air inside the shower by the members of the public was also investigated.
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阵雨期间氡及其短命衰变产物的建模:对成年公众的剂量
人类在房屋不同部位接触氡已成为一个非常令人担忧的问题。在这项研究中,氡的分布及其在淋浴间内的衰变将进行数值研究。事实上,水中的氡浓度是通过使用AlphaGUARD来测量的。它们被用作CFD模拟的输入。数值结果表明,温度和湿度对氡含量和分布都有显著影响。此外,还仔细研究了氡及其子代之间的平衡因子随温度和相对湿度的变化。通过在淋浴间吸入空气,对公众呼吸道不同组织中218Po和214Po的等效剂量进行了评估。还调查了公众在淋浴间内吸入空气而导致氡短寿命衰变的年度有效剂量。
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