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Decontamination of corrosion oxides in the heat transport system of a pressurized heavy water reactor using chelate-free inorganic acid

Authors
Chang, NaonEun, HeechulKim, SeonbyeongSeo, BumkyungKim, Yongsoo
Issue Date
May-2022
Publisher
Atomic Energy Society of Japan/Nihon Genshiroku Gakkai
Keywords
PHWR; decontamination; carbon steel; heat transport system; HyBRID
Citation
Journal of Nuclear Science and Technology, v.59, no.3, pp 306 - 317
Pages
12
Indexed
SCIE
SCOPUS
Journal Title
Journal of Nuclear Science and Technology
Volume
59
Number
3
Start Page
306
End Page
317
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/197314
DOI
10.1080/00223131.2021.1964404
ISSN
0022-3131
1881-1248
Abstract
Thick corrosion oxide (Fe3O4) layers containing radioactive metals are generated in a carbon steel heat transport system (HTS) of pressurized heavy water reactors during operation. It is necessary to decontaminate the oxide layers to reduce radiation exposure to workers before maintenance and decommissioning. Since the oxide layer thickness in the HTS is about 75 mu m, a considerable amounts of secondary wastes can be generated when the existing decontamination processes are applied. The aim of this study is to design a chemical decontamination process using chelate-free inorganic acid that can be effectively applied to remove the oxide layers in the HTS and to minimize the secondary waste generation. Therefore, Fe3O4 dissolution behaviors were evaluated in a Hydrazine Based Reductive metal Ion Decontamination (HyBRID) process using the chelate-free inorganic acid. From this result, the decontamination process of oxide layers in the HTS using recycling of decontamination process solution and the process control method using pH monitoring were constructed. In particular, process control based on pH monitoring can be easily used because decontamination performance can be controlled according to the goal; (1) effective removing the oxide layer at decommissioning, (2) avoiding corrosion of base metal and removing the oxide layer at maintenance.
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