Report of the Japan Health Physics Society ad hoc working group for the Plutonium intake accident An original WG report was published in Jpn J Health Physics, 53(4).271-281 (2018). 'JHPS Working Group for Plutonium Accident in JAEA-Oarai, Satoshi IWAI, Michiya SASAKI, Shogo HIGAKI, Hirokuni YAMANISHI and Michiaki KAI' (in Japanese). To share the original report, it has been translated into English for dissemination of the lessons learned

This paper describes an overview of the radiation protection response to the Plutonium intake accident that occurred at the Plutonium Fuel Facility of the Oarai Research and Development Center of the Japan Atomic Energy Agency on 6 June 2017. In the hood of the analyzing room at the Plutonium Fuel F...

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Bibliographic Details
Published in:Journal of radiological protection 2019-12, Vol.39 (4), p.1092-1104
Main Authors: Iwai, Satoshi, Sasaki, Michiya, Higaki, Shogo, Yamanishi, Hirokuni, Kai, Michiaki
Format: Article
Language:English
Subjects:
chelating-agent administration
decontamination
JAEA Oarai
lung monitor
NIRS
plutonium intake accident
skin
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Summary:This paper describes an overview of the radiation protection response to the Plutonium intake accident that occurred at the Plutonium Fuel Facility of the Oarai Research and Development Center of the Japan Atomic Energy Agency on 6 June 2017. In the hood of the analyzing room at the Plutonium Fuel Facility five workers were checking a storage container of fast reactor nuclear fuel material. Around 11:15 a.m., vinyl bags inside the fuel material container containing Plutonium and enriched uranium burst during the inspection work. All the workers heard the bang, which caused misty dust leakage from the container. This event caused significant both skin and nasal -contamination for three workers and just skin -contamination for one worker. Decontamination was conducted in the shower room. Then the five workers were transferred to the Nuclear Fuel Cycle Engineering Laboratory to evaluate inhalation intake of Plutonium etc in the lungs. The maximum values of 2.2 × 104 Bq for 239Pu and 2.2 × 102 Bq for 241Am were estimated by the lung monitor. Based on these results, injection of a chelate agent was conducted for prompt excretion of Plutonium etc. The next morning, the five workers were transferred to the National Institute of Radiological Sciences for treatment including decontamination of their skin and measurement by a lung monitor. At that time no obvious energy peak was confirmed for Plutonium. The Japan Health Physics Society launched an ad-hoc working group for Plutonium intake accident around the middle of June to survey issues and to extract lessons for radiological protection. The authors, who are the members of the ad-hoc working group, here report the activity of the working group.
ISSN:0952-4746
1361-6498
DOI:10.1088/1361-6498/ab26e1