Initialising ...
Initialising ...
Initialising ...
Initialising ...
Initialising ...
Initialising ...
Initialising ...
小倉 巧也*; 細田 正洋*; 玉熊 佑紀*; 鈴木 崇仁*; 山田 椋平; 根上 颯珠*; 辻口 貴清*; 山口 平*; 城間 吉貴*; 岩岡 和輝*; et al.
International Journal of Environmental Research and Public Health, 18(3), p.978_1 - 978_16, 2021/02
被引用回数:8 パーセンタイル:57.43(Environmental Sciences)Ten years have elapsed since the accident at the Fukushima Daiichi Nuclear Power Plant in 2011, and the relative contribution of natural radiation is increasing in Fukushima Prefecture due to the reduced dose of artificial radiation. In order to accurately determine the effective dose of exposure to artificial radiation, it is necessary to evaluate the effective dose of natural as well as artificial components. In this study, we measured the gamma-ray pulse-height distribution over the accessible area of Namie Town, Fukushima Prefecture, and evaluated the annual effective dose of external exposure by distinguishing between natural and artificial radionuclides. The estimated median (range) of absorbed dose rates in air from artificial radionuclides as of April 1, 2020, is 133 (67511) nGy h in the evacuation order cancellation zone, and 1306 (8922081) nGy h in the difficult-to-return zone. The median annual effective doses of external exposures from natural and artificial radionuclides were found to be 0.19 and 0.40 mSv in the evacuation order cancellation zone, and 0.25 and 3.9 mSv in the difficult-to-return zone. The latest annual effective dose of external exposure discriminated into natural and artificial radionuclides is expected to be utilized for radiation risk communication.
Hegeds, M.*; 城間 吉貴*; 岩岡 和輝*; 細田 正洋*; 鈴木 崇仁*; 玉熊 佑紀*; 山田 椋平; 辻口 貴清*; 山口 平*; 小倉 巧也*; et al.
Journal of Radioanalytical and Nuclear Chemistry, 323(1), p.197 - 204, 2020/01
被引用回数:3 パーセンタイル:27.87(Chemistry, Analytical)福島県浪江町において、2017年の部分的な避難指示区域の解除後、2つの主要河川の水中及び堆積物中の放射性セシウム濃度を大気中放射性物質濃度とともに測定した。観測された濃度は、ろ過していない河川水中のCsで最大38411mBq/L、大気中のCsで最大1.280.09mBq/mであり、堆積物中のCsでは最大で4490023.4Bq/kgであった。Cs/Cs比は、これまでの研究報告とよく一致し、浪江町における堆積物中の放射性セシウムの主な起源が1号機である可能性が高いと考えられる。