压水堆核电厂便于退役的沉积源项控制措施研究
Studies on Deposition Source Term Control Initiatives Convenient to Decommissioning of PWR
DOI: 10.12677/NST.2020.84020, PDF,  被引量    国家科技经费支持
作者: 毛兰方, 付亚茹, 梅其良, 孙大威, 高圣钦, 丁宏春:上海核工程研究设计院有限公司,上海
关键词: 沉积源项控制措施退役压水堆核电厂Deposition Source Term Control Initiatives Decommissioning PWR
摘要: 从源头控制辐射源项的产生,是实现辐射防护最优化和废物最小化目标中最为经济、有效的手段。本文从核电厂设计阶段和运行管理的角度出发,对沉积源项控制措施进行了研究,包括钴源减少技术、材料表面预处理技术、一回路水化学控制技术等,以便为提升核电厂退役阶段的辐射防护水平,降低放射性废物处理成本等提供参考。
Abstract: Controlling the generation of radioactive source terms from the origin is the most economical and effective method to radiation protection optimization and waste minimization. This article summarized these control initiatives of deposition source terms from the perspective of design and operation management, including cobalt source reduction, material surface pretreatment, water chemistry control, in order to improve the radiation protection level in decommissioning and reduce the costs of waste disposal.
文章引用:毛兰方, 付亚茹, 梅其良, 孙大威, 高圣钦, 丁宏春. 压水堆核电厂便于退役的沉积源项控制措施研究[J]. 核科学与技术, 2020, 8(4): 172-177. https://doi.org/10.12677/NST.2020.84020

参考文献

[1] Kang, S. and Sejvar, J. (1985) The CORA-II Model of PWR Corrosion-Product Transport. EPRI NP-4246, Electric Power Research Institute.
[2] Saaymans, M.A. (2018) Dose Reduction Benefits of Zinc Injection into the Primary Coolant System of a Pressurized Water Reactor. Master Thesis, University of the Witwatersrand, Witwatersrand.
[3] Kim, J.K. and Kim, S.J. (2000) The Temperature Dependence of the Wear Resistance of Iron-Base NOREM 02 Hardfacing Alloy. Wear, 237, 217-222. [Google Scholar] [CrossRef
[4] Matz, M. (2015) An Innovative Material for Nuclear Plant: EPRI Demonstrates Alloy That Could Reduce Plant Workers’ Cobalt Radiation Exposure by up to 20%. EPRI Journal.
https://eprijournal.com/
[5] Kim, S.-J. and Kim, J.-K. (2001) Effects of Temperature and Contact Stress on the Sliding Wear of Ni-Base Deloro 50 Hardfacing Alloy. Journal of Nuclear Materials, 288, 163-169. [Google Scholar] [CrossRef
[6] Radiological Solutions, Inc. EPRI Stabilized Chromim Process (SCrP). http://www.radiologicalsolutions.com/
[7] 熊书华, 朱志平, 荆玲玲, 等. 压水堆核电站–回路加锌原理及其工艺[C]//电厂化学. 2009学术年会暨中国电厂化学网高峰论坛论文集. 2009: 81-86.
[8] 于淼, 王海平, 于闯, 等. 压水堆核电站源项控制的水化学对策[C]//中国核学会. 2015年学术年会论文集. 2015: 151-157.
[9] Westinghouse Electric Company Nuclear Services/Engineering Services: Zinc Addition, NS-ES-0089.
https://www.westinghousenuclear.com/operating-plants/engineering/nsss-system-component-analysis