普遍采用的方法是地质处置,即保寻安全封闭的天然屏障。
The most liable method now is the geological disposal, that is, to explore a closed and security natural burrier.
尽管科学上根本没有什么问题,一个地质处置场的审核过程仍旧困难重重。
Despite this scientific confidence, the process of approving a geologic site remains fraught with difficulties.
近年来,用于高放废物深地质处置工程屏障的高压密膨润土越来越受到关注。
Attentions have been devoted in recent years to the behaviors of highly compacted bentonites used in engineered barriers for high level radioactive nuclear waste disposal.
进而从水文地球化学角度对预选场地高放废物地质处置的适宜性作出初步评价。
Based on hydro-geochemical theory, the site suitability for high-level radioactive waste geological disposal is initially evaluated.
导水构造水文地质特征评价是高放废物地质处置系统场址选取和评价研究的重要任务。
The hydrogeological characteristic of water-conductive fault is a critical part of site selection and evaluation of high-level radioactive waste geological disposal system.
由于其有利的地质条件及优良的物理力学特性,盐岩被视为是核废料地质处置的理想场所。
Salt rock is regarded as the ideal host rock for nuclear waste disposal due to its advantageous geological conditions and physico-mechanical properties.
本文阐述了高放废物深地质处置库天然类似物的一般概念及天然类比研究拟解决的科学问题。
This paper briefly presents the general concept of natural analogue of high level radioactive waste disposal repository and the scientific issues which need to be solved by natural analogue study.
另外,放射性核素在固-液界面吸附行为研究可为高放废物地质处置库的性能评价和安全评价提供基础数据。
The studies on physiochemical behaviors of radionuclides on solid-water interface are of importance for the performance and safety assessment of high-level radioactive repository.
缓冲材料是高放废物深地质处置库中的重要工程屏障,其导热性能参数是高放废物处置系统设计的关键参数之一。
Buffer material is one of the important engineered barriers in the high-level radioactive waste (HLW) repository. Its thermal property is one of the key properties for the design of HLW repository.
缓冲材料是高放废物深地质处置库中的重要工程屏障,其导热性能参数是高放废物处置系统设计的关键参数之一。
Buffer material is one of the important engineered barriers in the high-level radioactive waste (HLW) repository. Its thermal property is one of the key properties for the design of HLW repository.
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