短寿命低、中水平废物的处置:国外经验分析

B. Shabalin, O. Lavrynenko, N. Mitsiuk
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摘要

本文总结和分析了国外处理短寿命中、低放废物的主要方法和实践经验。根据原子能机构建议的分类,它们属于低水平废物类别,在近地面储存设施中进行处置。目前,在运行核设施和发展核技术的国家,没有一种处理这类废物的办法。储存库的类型及其结构和技术解决办法取决于废物本身的特点、场址的性质、核工业的国家战略以及社会和经济因素。迄今为止,已为处置短期低、中水平废物开发了几种类型的储存设施:相对简单的沟渠式近地表储存设施;与沟式相比,模块化近地表储存设施具有复杂的工程屏障系统和选择含岩(天然屏障)的标准;地质储库,主要是在采矿作业中建造的,具有复杂的隧道和屏障保护系统。膨润土粘土被广泛用作工程屏障的组成部分。在最简单的近地表储存库的情况下,膨润土层作为储存库的基础材料,有助于减少过滤,增加放射性核素和其他成分的吸收。在地质储存库的组织中,膨润土层有助于减少进入储存库的水过滤,增加放射性核素的吸收,防止在转移期间因含有岩石而破坏混凝土结构,并且在工程屏障的水泥-混凝土结构遭到破坏的情况下,导致放射性核素从储存库转移到环境中的减少。这项工作给出了世界各国不同类型的储存设施的例子。
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Disposal of short-lived low- and intermediate-level waste: analysis of foreign experience
The article summarizes and analyzes the main approaches and practical experience of foreign countries regarding the disposal of short-lived low- and medium-level waste. Their place in the category of low-level waste according to the recommended classification of the IAEA, for which disposal in near-surface storage facilities is provided, is shown. Currently, in countries that operate nuclear facilities and develop nuclear technologies, there is no one approach to the disposal of such waste. The type of repository and its structural and technological solutions are determined by the specifics of the waste itself, the nature of the site, the state strategy in the nuclear industry, as well as social and economic factors. To date, several types of storage facilities have been developed for the disposal of short-lived low- and medium-level waste: relatively simple trench-type near-surface storage facilities; modular-type near-surface storage facilities with a complicated system of engineering barriers and criteria for selecting containing rocks (natural barriers) compared to the trench type; geological storages, which are mainly built in mining operations with a complex system of tunnels and barrier protection. Bentonite clays are widely used as components of engineering barriers. In the simplest case of near-surface repositories, the bentonite layer serves as the base material of the repositories and helps to reduce filtration and increase the sorption of radionuclides and other components. In the organization of geological repositories, the bentonite layer contributes to the reduction of water filtration into the repositories, increases the sorption of radionuclides, prevents the destruction of concrete structures during a shift by containing rocks, and, in the event of the destruction of cement-concrete structures of engineering barriers, leads to a decrease in the removal of radionuclides from the repositories into the environment. The work gives examples of different types of storage facilities in countries around the world.
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