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Development of a “<sup>222</sup>Rn incremented method” for the rapid determination of air exchange rate using soil gas
Journal
Journal of Environmental Radioactivity
ISSN
0265931X
Date Issued
2023-02-01
Author(s)
Kumara, K. Sudeep
Karunakara, N.
Mayya, Y. S.
Abstract
The air exchange rate (AER) is a critical parameter that governs the levels of exposure to indoor pollutants impacting occupants’ health. It has been recognized as a crucial metric in spreading COVID-19 disease through airborne routes in shared indoor spaces. Assessing the AER in various human habitations is essential to combat such detrimental exposures. In this context, the development of techniques for the rapid determination of the AER has assumed importance. AER is generally determined using CO2 concentration decay data or other trace gas injection methods. We have developed a new method, referred to as the “222Rn incremented method”, in which 222Rn from naturally available soil gas was injected into the workplace for a short duration (∼30 min), homogenized and the profile of decrease of 222Rn concentration was monitored for about 2 h to evaluate AER. The method was validated against the established 222Rn time-series method. After ascertaining the suitability of the method, several experiments were performed to measure the AER under different indoor conditions. The AER values, thus determined, varied in a wide range of 0.36–4.8 h−1 depending upon the ventilation rate. The potential advantages of the technique developed in this study over conventional methods are discussed.
Volume
257
Publication link
Subjects