Indian Journal of Pure and Applied Physics

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Investigation of Radon Gas Diffusion through Thermocol Sheet: Effect of Thickness


Affiliations
1 Department of Physics, National Institute of Technology, Kurukshetra, Haryana 136 119, India
 

Exposure to indoor radioactive gases for long spells increases the risk of health-related issues. The primary mechanism contributing to indoor radon levels is radon transportation, subsequently exhalation from the soil matrix/ building material matrix to the enclosed indoor air of dwellings. Long-term exposure to elevated indoor radon levels may lead to the possibility of health-related problems. The use of Radon Transportation Resistive (RTR) material in the building construction may reduce the indoor radon concentration. The purposes of present study is to investigate the radon diffusion process through the thermocol sheet. This experimental study examined the Thermocol sheet for Radon Diffusion Coefficients (RDC) and Radon Diffusion Length (RDL). The mean RDC and RDL values for the investigated sample were to be (2.56 ± 0.72) x10-8 (m2 . s-1) and 0.10 ± 0.01 (m).

Keywords

Radon Transportation Resistive (RTR), Thermocol Sheet, Passive Measurement Technique, Radon Diffusion Coefficients (RDC), Radon Diffusion Length (RDL).
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  • Investigation of Radon Gas Diffusion through Thermocol Sheet: Effect of Thickness

Abstract Views: 106  |  PDF Views: 83

Authors

Neetika Chauhan
Department of Physics, National Institute of Technology, Kurukshetra, Haryana 136 119, India

Abstract


Exposure to indoor radioactive gases for long spells increases the risk of health-related issues. The primary mechanism contributing to indoor radon levels is radon transportation, subsequently exhalation from the soil matrix/ building material matrix to the enclosed indoor air of dwellings. Long-term exposure to elevated indoor radon levels may lead to the possibility of health-related problems. The use of Radon Transportation Resistive (RTR) material in the building construction may reduce the indoor radon concentration. The purposes of present study is to investigate the radon diffusion process through the thermocol sheet. This experimental study examined the Thermocol sheet for Radon Diffusion Coefficients (RDC) and Radon Diffusion Length (RDL). The mean RDC and RDL values for the investigated sample were to be (2.56 ± 0.72) x10-8 (m2 . s-1) and 0.10 ± 0.01 (m).

Keywords


Radon Transportation Resistive (RTR), Thermocol Sheet, Passive Measurement Technique, Radon Diffusion Coefficients (RDC), Radon Diffusion Length (RDL).

References