Measurement and modeling of indoor radon concentrations in residential buildings.

Q3 Medicine
Environmental Health and Toxicology Pub Date : 2018-01-08 eCollection Date: 2018-01-01 DOI:10.5620/eht.e2018003
Ji Hyun Park, Sungim Whang, Hyun Young Lee, Cheol-Min Lee, Dae Ryong Kang
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引用次数: 6

Abstract

Radon, the primary constituent of natural radiation, is the second leading environmental cause of lung cancer after smoking. To confirm a relationship between indoor radon exposure and lung cancer, estimating cumulative levels of exposure to indoor radon for an individual or population is necessary. This study sought to develop a model for estimate indoor radon concentrations in Korea. Especially, our model and method may have wider application to other residences, not to specific site, and can be used in situations where actual measurements for input variables are lacking. In order to develop a model, indoor radon concentrations were measured at 196 ground floor residences using passive alpha-track detectors between January and April 2016. The arithmetic mean (AM) and geometric mean (GM) means of indoor radon concentrations were 117.86±72.03 and 95.13±2.02 Bq/m3, respectively. Questionnaires were administered to assess the characteristics of each residence, the environment around the measuring equipment, and lifestyles of the residents. Also, national data on indoor radon concentrations at 7643 detached houses for 2011-2014 were reviewed to determine radon concentrations in the soil, and meteorological data on temperature and wind speed were utilized to approximate ventilation rates. The estimated ventilation rates and radon exhalation rates from the soil varied from 0.18 to 0.98/hr (AM, 0.59±0.17/hr) and 326.33 to 1392.77 Bq/m2/hr (AM, 777.45±257.39; GM, 735.67±1.40 Bq/m2/hr), respectively. With these results, the developed model was applied to estimate indoor radon concentrations for 157 residences (80% of all 196 residences), which were randomly sampled. The results were in better agreement for Gyeonggi and Seoul than for other regions of Korea. Overall, the actual and estimated radon concentrations were in better agreement, except for a few low-concentration residences.

Abstract Image

Abstract Image

住宅建筑室内氡浓度的测量与模拟。
氡是自然辐射的主要成分,是继吸烟之后导致肺癌的第二大环境因素。为了确认室内氡暴露与肺癌之间的关系,有必要估计个人或人群的室内氡累积暴露水平。本研究试图建立一个模型来估计韩国室内氡浓度。特别是,我们的模型和方法可以更广泛地应用于其他住宅,而不是特定的地点,并且可以用于缺乏输入变量实际测量的情况。为了建立一个模型,在2016年1月至4月期间,使用被动α轨道探测器测量了196个底层住宅的室内氡浓度。室内氡浓度的算术平均值(AM)为117.86±72.03 Bq/m3,几何平均值(GM)为95.13±2.02 Bq/m3。通过问卷调查来评估每个住宅的特征、测量设备周围的环境和居民的生活方式。此外,还审查了2011-2014年7643所独立住宅室内氡浓度的国家数据,以确定土壤中的氡浓度,并利用温度和风速的气象数据来估算通风率。土壤通风量和氡呼出率分别为0.18 ~ 0.98 Bq/ hr (AM, 0.59±0.17/hr)和326.33 ~ 1392.77 Bq/m2/hr (AM, 777.45±257.39);GM = 735.67±1.40 Bq/m2/hr)。根据这些结果,将开发的模型应用于随机抽样的157个住宅(占全部196个住宅的80%)的室内氡浓度估计。与其他地区相比,京畿道和首尔的结果更为一致。总体而言,除少数低浓度住宅外,实际氡浓度和估计氡浓度比较吻合。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Environmental Health and Toxicology
Environmental Health and Toxicology Medicine-Public Health, Environmental and Occupational Health
CiteScore
2.50
自引率
0.00%
发文量
0
审稿时长
8 weeks
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