居住环境中的辐射监测:空气剂量率和137Cs清单的时间依赖性

Pub Date : 2022-03-31 DOI:10.14407/jrpr.2021.00199
K. Yoshimura
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引用次数: 1

摘要

研究背景:居民在居住区域内的时间较长,其外部暴露有一定的影响因素。虽然在福岛第一核电站事故发生后,政府或研究机构进行了各种调查,但陆域放射性元素库存的机制尚未明确。为了更好地评价辐射环境,本研究调查了居民区和农田空气剂量率和137cs库存(Bq/ m2)的时间变化。材料和方法:在距离福岛第一核电站5-8公里疏散区内的居民区调查了空气剂量率和137cs清单。2014年12月至2018年9月,通过徒步调查(背包调查)调查空气剂量率分布,由操作员背着γ射线探测器进行。此外,从2014年12月到2021年1月,还使用便携式γ射线探测器测量了铺砌和可渗透地面上的137 Cs库存。结果与讨论:在未进行去污处理的地区,居民区空气剂量率下降速度快于农田。此外,由于水平冲刷作用,铺装表面的137cs含量随着时间的推移而下降,而渗透性表面的137cs含量由于去污作用而急剧下降。结论:铺装路面上137 - Cs的水平冲刷作用比农田中137 - Cs的垂直迁移作用更能促进住区空气剂量率的降低。本研究结果可以解释以往研究报道的居住环境中环境恢复较快的现象。
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Radiation Monitoring in the Residential Environment: Time Dependencies of Air Dose Rate and 137Cs Inventory
Background: Residential areas have some factors on the external exposure of residents, who usually spend a long time in these areas. Although various survey has been carried out by the government or the research institutions after the Fukushima Daiichi Nuclear Power Plant accident, the mechanism of radiocesium inventory in the terrestrial zone has not been cleared. To better evaluate the radiation environment, this study investigated the temporal changes in air dose rate and 137 Cs inventories (Bq/m 2 ) in residential areas and agricultural fields. Materials and Methods: Air dose rate and 137 Cs inventories were investigated in residential areas located in an evacuation zone at 5–8 km from the Fukushima Daiichi Nuclear Power Plant. From December 2014 to September 2018, the air dose rate distribution was investigated through a walking survey (backpack survey), which was conducted by operators carrying a γ -ray detector on their backs. Additionally, from December 2014 to January 2021, the 137 Cs inventories on paved and permeable grounds were also measured using a portable γ -ray detector. Results and Discussion: In the areas where decontamination was not performed, the air dose rate decreased faster in residential areas than in agricultural fields. Moreover, the 137 Cs inventory on paved surfaces decreased with time owing to the horizontal wash-off, while the 137 Cs inventory on permeable surfaces decreased dramatically owing to the decontamination activities. Conclusion: These findings suggest that the horizontal wash-off of 137 Cs on paved surfaces facilitated the air dose rate decrease in residential areas to a greater extent compared with agricultural fields, in which the air dose rate decreased because of the vertical migration of 137 Cs. Results of this study can explain the faster environmental restoration in a residential environment reported by previous studies.
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