2006 年至 2022 年日本六所后处理厂附近咸水湖水生生物群样本中的放射性碳。

IF 0.8 4区 环境科学与生态学 Q4 ENVIRONMENTAL SCIENCES
Shinji Ueda, Hideki Kakiuchi, Hidenao Hasegawa
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引用次数: 0

摘要

位于日本六所的商用乏核燃料后处理厂计划于 2024 年竣工。2006 年至 2008 年期间,作为该厂试验运行的一部分,其燃料棒被切割成若干段并进行了化学处理。测试期间,14C(4.4 TBq)从该厂的主烟囱排入大气。在后处理厂排放到大气中的核素中,14C 对公众有效剂量的影响最大,因此了解 14C 在周围环境中的浓度分布和影响非常重要。这项研究在 2006 年至 2022 年期间,对核电站周围水生生物群样本中的 14C 进行了连续监测。结果表明,大部分样本中的 14C 浓度与本底水平相当,部分样本中的 14C 浓度略微受到该工厂的影响。此外,14C 的比放射性从 0.242 Bq-g C-1 降至 0.225 Bq-g C-1 的速度快于理论衰减速度。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Radiocarbon in aquatic biota samples in a brackish lake adjacent to a reprocessing plant in Rokkasho, Japan, from 2006 to 2022.

The commercial spent-nuclear-fuel reprocessing plant in Rokkasho, Japan, is scheduled for completion in 2024. Its fuel rods were cut into segments and chemically processed between 2006 and 2008, as part of the plant's test operations. During the test, 14C (4.4 TBq) were discharged from the plant's main stack into the atmosphere. At reprocessing plants, 14C has the largest contribution to the effective dose to the public among the nuclides released into the atmosphere, and it important to understand the concentration distribution and impact of 14C in the surrounding environment. This study conducts a continuous monitoring of 14C in aquatic biota samples around the plant from 2006 to 2022. The 14C concentration in most samples was determined at the background level, and the effect of the plant was slightly recognized in some samples. Moreover, the specific radioactivity of 14C decreased faster than the theoretical decay from 0.242 to 0.225 Bq-g C-1.

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来源期刊
Radiation protection dosimetry
Radiation protection dosimetry 环境科学-公共卫生、环境卫生与职业卫生
CiteScore
1.40
自引率
10.00%
发文量
223
审稿时长
6-12 weeks
期刊介绍: Radiation Protection Dosimetry covers all aspects of personal and environmental dosimetry and monitoring, for both ionising and non-ionising radiations. This includes biological aspects, physical concepts, biophysical dosimetry, external and internal personal dosimetry and monitoring, environmental and workplace monitoring, accident dosimetry, and dosimetry related to the protection of patients. Particular emphasis is placed on papers covering the fundamentals of dosimetry; units, radiation quantities and conversion factors. Papers covering archaeological dating are included only if the fundamental measurement method or technique, such as thermoluminescence, has direct application to personal dosimetry measurements. Papers covering the dosimetric aspects of radon or other naturally occurring radioactive materials and low level radiation are included. Animal experiments and ecological sample measurements are not included unless there is a significant relevant content reason.
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