hlw

Compression behaviors of crushed Cox argillite used as backfilling material in HLW repository

高放废物处置库中COx黏土岩回填材料压缩特性研究

Disposal of HLW by P-T and the emerging advanced nuclear systems without long-lived HLW

高放废物的嬗变处置与不产生长寿命高放废物的先进核能系统

Study on Solute Transport Based on the Deep Geological Disposal of HLW

基于高放废物深地质处置的溶质运移研究

The Application of Remote Sensing Technique to the Preliminary Sitting of High Level Waste ( HLW ) Repository

遥感技术在高放废物处置库场址预选中的应用

Sulfate distribution in the pot type facility for vitrification of simulated sulfate containing HLW

含硫酸盐模拟高放废液罐式法玻璃固化中间装置中硫的分布

This paper describes the feature , methodology and safety indicators of safety assessment for geological disposal systems of HLW .

主要介绍了高放废物地质处置系统安全评价的基本特征、方法和所采用的安全指标体系。

Advance in the Study of Removing Cesium from Acidic HLW by Inorganic Ion Exchangers

用无机离子交换法从酸性高放废液中去除铯研究进展

The Design of RADMIG & A Nuclide Migration Device with the Simulated HLW Repository Environment

模拟HLW处置库环境核素迁移实验装置RADMIG的设计

Permanent geological disposal of HLW vitrification is now the only way to actually resolve this problem in large quantities .

玻璃固化后对HLW进行永久地质处置是如今大批量解决其存放问题的唯一方式。

Coupled calculation of dose field-temperature FIELD-HYDRO-POTENTIAL field-stress field near HLW deep geological disposal repository

高放废物深地质处置场近场剂量场-温度场-水势场-应力场的耦合计算

In this paper , basic characters and research actualities about HLW forms ( cements ceramics and vitrification etc ) are described briefly .

简述了高放废料的产生、基本特点，几种高放废料固化基材（玻璃、陶瓷、增压养护水泥、碱矿渣水泥和水合陶瓷）各自的特性和研究现状。

Physico-mechanical property is one of the important aspects for site selection , design , construction and performance assessment of high-level radioactive waste ( HLW ) disposal .

岩石物理力学性能研究是高放废物处置库选址、设计、建造和性能评价中不可或缺的一个重要研究方面。

Chemical durability of iron-phosphate glasses containing simulated sr-loaded HLW

模拟含锶废物铁磷酸盐玻璃固化体的化学稳定性

A new solidification process using AASC ( alkali-activated slag cement ) to immobilize HLW ( high level waste ) is introduced in the article .

介绍了用碱矿渣水泥固化高放废液新工艺。

The deep geological disposal is regarded as the most reasonable and effective way to safely dispose high-level radioactive wastes ( HLW ) in the world .

深地质处置被国际上公认为处置高放废物的最有效可行的方法。

Safety assessment for geological disposal systems of HLW differs from other engineering systems in the following aspects . ( 1 ) Extremely long time scales must be taken into account .

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。

Analysis of the stabilities of the mineral hosts shows that they especially fit the situation of a HLW repository in deep underground with damp air and changing temperatures .

高放废液矿物固化体的稳定性分析表明，它们十分适合于地下处置库的潮湿和温度变化的环境。Air（初三适用）

For the chrome refractory , the corrosion rate in three iron phosphate melts containing simulated HLW waste was under 0 1mm / day at the melt line .

对氧化铬耐火材料来说，其在三种含有模拟HLW废料的铁磷熔体中的熔线腐蚀速度小于01mmday。

Mineral hosts are obviously much better than glass ones in many aspects , such as smaller volume , larger amount of HLW incorporated , lower leaching rate and simpler producing process .

体积小、HLW组分掺入量高、浸出率低和制作过程简单是矿物固化体的优势。

Deep geological disposal based on the " multiple screening principle " is an appropriate method for the high-level radioactive waste ( HLW ) disposal accepted generally both at home and abroad .

基于多重屏障原理的深地质处置是国内外公认的处置高放射性核废物的合适方法。

Second , this paper consults the investor sentiment theory from LST ( 1991 ) and HLW ( 1994 ), then gets four propositions base on a general equilibrium model .

本文借鉴LST（1991）和HLW（1994）投资者情绪理论，通过理论模型分析，得出了投资者情绪理论成立的四个基于一般均衡模型的推论，并逐一进行了实证检验。

Many countries have been speeding up their study and development on the technique of cement immobilization of high-level radioactive waste ( HLW ) since the last decade , and great progress has been obtained .

近十几年来，许多国家正在加速研究和开发高放射性废物的水泥固化技术，并取得了较大进展。

Through a nationwide screening and comparison , Beishan area , a Gobi desert in Gansu Province , is considered as a suitable candidate for HLW geological repository in China .

经过全国筛选对比，已初步确定甘肃北山地区为我国高放废物处置库重点预选区。

The bentonite is selected as base material of the buffer / backfill material in HLW repositories , due to the very low permeability and excellent retardation of nuclides from migration , etc.

膨润土由于具有极低的渗透性和优良的核素吸附等性能而被国际上选作缓冲材料的基础材料。

The leaching behavior of HLW glass by simulated groundwater and deionized water are studied by MCC-1 static method under both atmospheric and anaerobic conditions at 150 ℃ and 90 ℃ for 546 d.

采用MCC-1静态浸出法研究了在低氧条件下，两种温度（150℃和90℃）和两种浸出剂（模拟地下水和去离子水）在浸泡546d后对玻璃固化体浸出行为的影响。

The removal of strontium from HLW ( high-level radioactive waste ) with the extraction by dicyclohexano-18-crown-6 ( DC18C6 ) in1-octanol has been investigated .

报道了用二环己基18冠6（DC18C6）-正辛醇萃取法从模拟高放废液中去除锶的研究。

The conceptual model of HLW geological disposal in China is based on a multi-barrier system that combines an isolating geological environment with an engineered barrier system including the vitrified HLW , canister , overpack and buffer / backfill material .

中国深地质处置的概念模型采用多重工程屏障系统（包括废物固化体、废物容器、外包装、缓冲/回填材料）和适宜的地质围岩地质体共同作用来确保高放废物与生物圈的安全隔离。

The FDS ( Fusion-Driven Sub-critical System ) can realize the transmutation of HLW ( High Level Waste ), fuel production , energy breeding and tritium production by utilizing the external neutron source to make the reactor operated under the sub-critical state .

聚变中子源驱动的次临界核能系统（FDS）是根据聚变和裂变反应的各自特点，利用外源中子进入包层的次临界系统，实现增殖燃料、增益能量、产氚和嬗变核废料等功能。

A simulated high level radioactive nuclear waste ( HLW ) containing 4 % ( in mass , the same below ) chrome oxide , which represents 17 clusters of the high chrome oxide waste stored at Hanford Washington , USA , was designed .

以在美国Washington州Hanford市存放的17类不同组成的高放射性核废料（highlevelradioactivenuclearwaste，HLW）为研究对象，设计了含Cr2O3为4%（质量分数，下同）的模拟HLW。

High-Level Radioactive Waste ( HLW ) is a waste of that very difficult to be disposed of because which contains strong radioactive , heat , toxicity , and long half-life nuclides . The deep geological disposal is currently believed to be the best feasible disposition .

高放废物是一种放射性强、毒性大、核素半衰期长并且发热的特殊废物，高放废物的安全处置难度极大，目前普遍认可的处置方案是深地质处置法。