Comparative Study of Radiation Mapping Technologies for Nuclear Disaster Assessment

IF 0.7 Q4 GEOSCIENCES, MULTIDISCIPLINARY
Kotaro Ochi, Evelyne Barker, Shigeo Nakama, Marc Gleizes, Erwan Manach, Vincent Faure, Y. Sanada
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Abstract

The distribution of the ambient dose equivalent rate (i.e., air dose rate) after a nuclear disaster is crucial for zoning contaminated areas to facilitate authorities’ effective decision making. Several countries are considering a gradual characterization strategy where airborne measurement is performed first followed by ground measurement (i.e., via manborne or carborne surveys). Nonetheless, potential differences might emerge in country-specific air dose rate assessment methods. Explaining these discrepancies can improve and converge existing methodologies. The Japan Atomic Energy Agency (JAEA) and the French Institute for Radiological Protection and Nuclear Safety (IRSN), which are organizations involved in post-nuclear accident crisis management, jointly performed air dose rate measurements in 2019 at contaminated sites around the Fukushima Daiichi Nuclear Power Station. The similarities and differences between the two organizations’ methods and results were quantitatively assessed by comparing the average air dose rates obtained within a grid created with a geographic information system, and the reasons for the differences between the organizations’ results were investigated. The air dose rates obtained by the manborne measurements varied depending on the calibration method. Comparing the air dose rate assessment methods and mapping techniques used in different countries will contribute to developing international guidelines for recommending the best method for determining air dose rates.
用于核灾难评估的辐射绘图技术比较研究
核灾难发生后,环境剂量当量率(即空气剂量率)的分布对于划分污染区以帮助当局做出有效决策至关重要。一些国家正在考虑采取渐进式特征描述策略,即先进行空气测量,然后再进行地面测量(即通过人载或车载调查)。然而,各国的空气剂量率评估方法可能会出现潜在差异。解释这些差异可以改进和统一现有方法。日本原子能研究开发机构(JAEA)和法国辐射防护与核安全研究所(IRSN)是参与核事故后危机管理的组织,它们于 2019 年在福岛第一核电站周围的污染场地联合进行了空气剂量率测量。通过比较在地理信息系统创建的网格内获得的平均空气剂量率,定量评估了两个组织的方法和结果之间的异同,并调查了两个组织的结果存在差异的原因。人为测量获得的空气剂量率因校准方法的不同而不同。对不同国家使用的空气剂量率评估方法和绘图技术进行比较,将有助于制定国际准则,推荐确定空气剂量率的最佳方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Journal of Disaster Research
Journal of Disaster Research GEOSCIENCES, MULTIDISCIPLINARY-
CiteScore
1.60
自引率
37.50%
发文量
113
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