从氡和钍测量、吸入剂量评估到喀麦隆的国家法规和氡行动计划

IF 0.6 Q4 NUCLEAR SCIENCE & TECHNOLOGY
Saïdou-, S. Tokonami, M. Hosoda, A. Simo, J. Hell, O. German, Esmel Gislere Oscar Meless
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引用次数: 1

摘要

背景:目前的研究报告了住宅中氡(222Rn)和钍(220Rn)活性浓度的测量,随后对公众进行吸入剂量评估,然后在喀麦隆制定法规和国家氡行动计划(NRAP)。材料和方法:2014年至2017年,在450个家庭中使用氡-钍鉴别探测器(商用RADUET)进行了氡、钍和钍子代测量,在350个家庭中使用了钍子代监测仪。从2019年到2020年,在1400户住宅中部署了氡轨迹探测器(商用RADTRAK)。结果发现,1,850户住宅的氡活度浓度在10至2,620 Bq/m3之间,几何平均值为76 Bq/m3。结果与讨论:刺的活性浓度范围为20 ~ 700 Bq/m3,几何平均值为107 Bq/m3。梭伦平衡因子的范围为0.01至0.6,算术平均值为0.09,高于UNSCEAR给出的默认值0.02。平均而言,49%、9%和2%的受调查房屋的氡浓度分别高于100、200和300 Bq/m3。氡和氡暴露对吸入剂量的平均贡献约为40%。因此,在剂量评估中不能忽略钍,以避免在放射流行病学研究中产生偏倚的结果。在法规草案和2020年10月通过的NRAP中,只考虑了氡。建议住宅和工作场所的参考水平分别为300 Bq/m3和1000 Bq/m3。结论:今后几年的优先行动包括:绘制氡风险图,促进制定建筑物内的氡保护政策,将预防和缓解氡纳入建筑专家的培训,减少氡含量高的住宅和工作场所,提高公众对与氡有关的健康风险的认识,以及制定科学和技术方面的方案。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
From Radon and Thoron Measurements, Inhalation Dose Assessment to National Regulation and Radon Action Plan in Cameroon
Background: The current study reports measurements of activity concentrations of radon (222Rn) and thoron (220Rn) in dwellings, followed by inhalation dose assessment of the public, and then by the development of regulation and the national radon action plan (NRAP) in Cameroon.Materials and Methods: Radon, thoron, and thoron progeny measurements were carried out from 2014 to 2017 using radon-thoron discriminative detectors (commercially RADUET) in 450 dwellings and thoron progeny monitors in 350 dwellings. From 2019 to 2020, radon track detectors (commercially RADTRAK) were deployed in 1,400 dwellings. It was found that activity concentrations of radon range in 1,850 houses from 10 to 2,620 Bq/m3 with a geometric mean of 76 Bq/m3.Results and Discussion: Activity concentrations of thoron range from 20 to 700 Bq/m3 with a geometric mean of 107 Bq/m3. Thoron equilibrium factor ranges from 0.01 to 0.6, with an arithmetic mean of 0.09 that is higher than the default value of 0.02 given by UNSCEAR. On average, 49%, 9%, and 2% of all surveyed houses have radon concentrations above 100, 200, and 300 Bq/m3, respectively. The average contribution of thoron to the inhalation dose due to radon and thoron exposure is about 40%. Thus, thoron cannot be neglected in dose assessment to avoid biased results in radio-epidemiological studies. Only radon was considered in the drafted regulation and in the NRAP adopted in October 2020. Reference levels of 300 Bq/m3 and 1,000 Bq/m3 were recommended for dwellings and workplaces.Conclusion: Priority actions for the coming years include the following: radon risk mapping, promotion of a protection policy against radon in buildings, integration of the radon prevention and mitigation into the training of construction specialists, mitigation of dwellings and workplaces with high radon levels, increased public awareness of the health risks associated with radon, and development of programs on the scientific and technical aspects.
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来源期刊
Journal of Radiation Protection and Research
Journal of Radiation Protection and Research Physics and Astronomy-Radiation
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