Kumar Ajay, Sharma Sumit, Mehra Rohit, Narang Saurabh, Mishra Rosaline
a Department of Physics , DAV College , Amritsar , India.
b Department of Physics . Dr. B. R. Ambedkar National Institute of Technology , Jalandhar , India.
Int J Occup Environ Health. 2017 Jul;23(3):202-214. doi: 10.1080/10773525.2018.1450326. Epub 2018 Mar 15.
Background The inhalation doses resulting from the exposure to radon, thoron, and their progeny are important quantities in estimating the radiation risk for epidemiological studies as the average global annual effective dose due to radon and its progeny is 1.3 mSv as compared to that of 2.4 mSv due to all other natural sources of ionizing radiation. Objectives The annual inhalation dose has been assessed with an aim of investigating the health risk to the inhabitants of the studied region. Methods Time integrated deposition based Rn/Rn sensors have been used to measure concentrations in 146 dwellings of Udhampur district, Jammu and Kashmir. An active smart RnDuo monitor has also been used for comparison purposes. Results The range of indoor radon/thoron concentrations is found to vary from 11 to 58 Bqm with an average value of 29 ± 9 Bqm and from 25 to 185 Bqm with an average value of 83 ± 32 Bqm, respectively. About 10.7% dwellings have higher values than world average of 40 Bqm prescribed by UNSCEAR. The relationship of indoor radon and thoron levels with different seasons, ventilation conditions, and different geological formations have been discussed. Conclusions The observed values of concentrations and average annual effective dose due to radon, thoron, and its progeny in the study area have been found to be below the recommended level of ICRP. The observed concentrations of Rn and Rn measured with active and passive techniques are found to be in good agreement.
由于氡、钍射气及其子体所致的吸入剂量是估算流行病学研究辐射风险的重要量值,因为全球氡及其子体所致的年平均有效剂量为1.3毫希沃特,而所有其他天然电离辐射源所致的年平均有效剂量为2.4毫希沃特。
评估年吸入剂量,以调查研究区域居民的健康风险。
使用基于时间积分沉积的Rn/Rn传感器测量查谟和克什米尔乌达姆布尔区146户住宅中的浓度。还使用了有源智能RnDuo监测仪进行比较。
室内氡/钍射气浓度范围分别为11至58贝克勒尔每立方米,平均值为29±9贝克勒尔每立方米,以及25至185贝克勒尔每立方米,平均值为83±32贝克勒尔每立方米。约10.7%的住宅的值高于联合国原子辐射效应科学委员会规定的40贝克勒尔每立方米的世界平均值。讨论了室内氡和钍射气水平与不同季节、通风条件和不同地质构造的关系。
研究区域内氡、钍射气及其子体的浓度观测值和年平均有效剂量已发现低于国际放射防护委员会的推荐水平。用主动和被动技术测量的Rn和Rn的观测浓度结果吻合良好。