1) geological disposal
地质处置
1.
Numerical simulation of thermo-hydro-mechanical coupling in near field of model test for geological disposal of nuclear waste;
核废物地质处置模型试验近场热-水-应力耦合数值模拟
2.
Performance assessment for high level waste geological disposal;
高放废物地质处置性能评价
3.
3D finite element simulation for influence of thermo-hydro-mechanical coupling on migration in geological disposal of nuclear waste
核废物地质处置中热-水-应力耦合对迁移影响的三维有限元模拟
2) Deep geological disposal
深地质处置
1.
Deep geological disposal is the most safe and effective method for repositing the high-level redioactive waste,and Gaomiaozi bentonite located in Xinghe County,Inner Mongolia,is considered as the first choice of the geological repository in Chinese buffer/backfill materials for high-level radioactive waste.
深地质处置现在被普遍接受为最安全有效的方法。
2.
The features of deep geological disposal repositories as a deep underground engineering are firstly summarized.
概括了深地下工程的深地质处置库的若干特点,简要介绍了多场耦合的机理与类型,论述了高放废物深地质处置多场耦合与核素迁移问题的特点及研究现状,最后提出了高放废物深地质处置多场耦合与核素迁移所需研究的主要问题。
3.
Some aspects related to deep geological disposal of high-level nuclear waste and their research are outlined,including basic concept and key technical issues of deep geological disposal,engineering barrier,site location factors and selection processes.
简要介绍了高放废物深地质处置的概念及其关键技术问题、高放废物工程屏障及其研究概况、高放废物处置库的选址因素及选址过程、处置库的主要岩石力学问题与候选主岩、地下实验室核素迁移示踪研究概况,最后,简要介绍了美、法、俄、韩、中等国在高放废物处置方面的研究计划与进展。
3) geological repository
地质处置库
1.
Many countries have studied the possible hosting rocks of the geological repository in detail and found that granite,claystone and rock salt are suitable to the geological repository.
通过对比,认为花岗岩、黏土岩、岩盐比较适合作为处置库围岩,而黏土岩由于具有自封闭性、渗透率低等其他岩石类型不可比拟的优点,因而将黏土岩作为高放废物地质处置库围岩越来越受到各国的关注。
5) geological disposal system
地质处置系统
1.
Safety assessment for geological disposal systems of HLW differs from other engineering systems in the following aspects.
高放废物地质处置系统的安全评价不同于其他工程系统的安全评价,主要表现在:(1) 所考虑的时间尺度长。
6) geologic disposal concept
地质处置方法,地质处置概念
补充资料:乏燃料直接地质层处置
分子式:
CAS号:
性质:将乏燃料直接埋于一定深度的地质层内,是乏燃料可回取的处置方法。
CAS号:
性质:将乏燃料直接埋于一定深度的地质层内,是乏燃料可回取的处置方法。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条