Assessment of Corrosion Lifetime of a Copper Disposal Canister Based on the Finnish Posiva Methodology

H. Choi, Jongyoul Lee, D. Cho
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引用次数: 1

Abstract

In this paper, an approach developed by the Finnish nuclear waste management organization, Posiva, for the construction license of a geological repository was reviewed. Furthermore, a computer program based on the approach was developed. By using the computer program, the lifetime of a copper disposal canister, which was a key engineered barrier of the geological repository, was predicted under the KAERI Underground Research Tunnel (KURT) geologic conditions. The computer program was developed considering the mass transport of corroding agents, such as oxygen and sulfide, through the buffer and backfill. Shortly after the closure of the repository, the corrosion depths of a copper canister due to oxygen in the pores of the buffer and backfill were calculated. Additionally, the long-term corrosion of a copper canister due to sulfide was analyzed in two cases: intact buffer and eroded buffer. Under various conditions of the engineered barrier, the corrosion lifetimes of the copper canister due to sulfide significantly exceeded one million years. Finally, this study shows that it is necessary to carefully characterize the transmissivity of rock and sulfide concentration during site characterization to accurately predict the canister lifetime.
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基于芬兰Posiva方法的铜处理罐腐蚀寿命评估
本文审查了芬兰核废料管理组织Posiva为地质储存库的建造许可证所制订的一种办法。并在此基础上编制了计算机程序。利用计算机程序,对KAERI地下研究隧道(KURT)地质条件下,作为地质库关键工程屏障的铜处置筒的寿命进行了预测。计算机程序的制定考虑了腐蚀剂,如氧和硫化物,通过缓冲层和充填体的质量输运。在储存库关闭后不久,计算了缓冲层和回填层孔隙中的氧气对铜罐的腐蚀深度。此外,还分析了硫化物对铜罐的长期腐蚀,分为完整缓冲层和侵蚀缓冲层两种情况。在工程屏障的各种条件下,铜罐由于硫化物的腐蚀寿命明显超过100万年。最后,本研究表明,在现场表征过程中,有必要仔细表征岩石的透射率和硫化物浓度,以准确预测储气罐的寿命。
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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