Proposal of an Improved Concept Design for the Deep Geological Disposal System of Spent Nuclear Fuel in Korea

Journal of the Nuclear Fuel Cycle and Waste Technology Pub Date : 2020-11-30 DOI:10.7733/jnfcwt.2020.18.s.1

Jongyoul Lee, In-Young Kim, Heejae Ju, H. Choi, D. Cho

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引用次数: 6

Abstract

Based on the current high-level radioactive waste management basic plan and the analysis results of spent nuclear fuel characteristics, such as dimensions and decay heat, an improved geological disposal concept for spent nuclear fuel from domestic nuclear power plants was proposed in this study. To this end, disposal container concepts for spent nuclear fuel from two types of reactors, pressurized water reactor (PWR) and Canada deuterium uranium (CANDU), considering the dimensions and interim storage method, were derived. In addition, considering the cooling time of the spent nuclear fuel at the time of disposal, according to the current basic plan-based scenarios, the amount of decay heat capacity for a disposal container was determined. Furthermore, improved disposal concepts for each disposal container were proposed, and analyses were conducted to determine whether the design requirements for the temperature limit were satisfied. Then, the disposal efficiencies of these disposal concepts were compared with those of the existing disposal concepts. The results indicated that the disposal area was reduced by approximately 20%, and the disposal density was increased by more than 20%.

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韩国乏燃料深层地质处置系统的改进概念设计建议

本研究在现行高放废物管理基本方案的基础上，结合对乏核燃料尺寸、衰变热等特性的分析结果，提出了一种改进的国内核电站乏核燃料地质处置理念。为此目的，提出了压水反应堆和加拿大氘铀两种反应堆的乏核燃料的处置容器概念，考虑到其尺寸和临时储存方法。此外，考虑到乏燃料在处置时的冷却时间，根据目前基于基本计划的情景，确定了处置容器的衰变热容量。对每个处置容器提出了改进的处置理念，并进行了分析，以确定是否满足温度极限的设计要求。然后，将这些处置概念的处置效率与现有处置概念的处置效率进行比较。结果表明，处置面积减少了约20%，处置密度增加了20%以上。

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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Journal of the Nuclear Fuel Cycle and Waste Technology

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