| 1. | Safe disposal of high level radioactive waste is a challenging task facing the scientific and technological world
摘要如何安全处置高水平放射性废物是科学、技术和工程界所面临的挑战性问题。 |
| 2. | Nuclear energy . fuel cycle technology . waste . standard method for testing the long term alpha irradiation stability of solidified high level radioactive waste forms
核能.燃料循环技术.废料.高放射性固化废料形态长期辐射稳定性的标准测试方法 |
| 3. | The heat conductivity of bentonite is one of the important parameters for buffer / backfilling materials as barriers in high level radioactive waste disposal system
摘要膨润土的热学性能是评价膨润土作为高放废物深地质处置库缓冲回填材料的重要参数。 |
| 4. | Asme boiler pressure vessel code - section 3 : rules for construction of nuclear facility components ; division 3 ; containment systems and transport packaging for spent nuclear fuel and high level radioactive waste
Asme锅炉和压力容器规程.第3节:核设施元部件制造规则.第3分册.消耗核燃料和高级放射性废物用盛装系统和运输包装 |
| 5. | Asme boiler pressure vessel code - section 3 : rules for construction of nuclear facility components ; division 3 ; containment systems and transport packaging for spent nuclear fuel and high level radioactive waste ; 2005 addenda july 1 , 2005
Asme锅炉和压力容器规范.第3部分:核设备元件结构原理. 3类.失效核燃料和高等级放射性废物的密封系统和运输包装.补充件2005 |
| 6. | ( 7 ) in this work , granite samples are collected from bei shan geologic layer of gansu province , the preselected site in our country for the high level radioactive waste disposal . this is the first time in china in the studies of tc sorption and diffusion
( 7 )本工作采用我国高放废物地质处置预选场址甘肃北山地质层中花岗岩芯样品,作为tc吸附和扩散行为研究的材料,这在我国tc的吸附和扩散行为研究中尚属首次。 |
| 7. | Those research results will be applied on some important civil engineering such as china national high level radioactive waste deposal , energy storage project , the deep exploitation of petroleum and gas , and the construction of the exceed deep and exceed long tunnel of “ south to north of water ” project
开展大型材料模拟试验技术、节理岩体三场耦合理论和关键试验技术的研究,为国家高放废物处置、能源战略储存、石油深层开采、南水北调西线超深超长隧道营建等重大工程服务。 |
| 8. | This paper introduces the latest progress of high level radioactive waste disposal programs in the world , and discusses the key scientific issues as follows : ( 1 ) the precise prediction of the evolution of a repository site ; ( 2 ) the characteristics of deep geological environment ; ( 3 ) the behaviour of deep rock mass , groundwater and engineering material under coupled conditions ( intermediate to high temperatures , geostress , hydraulic , chemical , biological and radiation process , etc ) ; ( 4 ) the geochemical behaviour of transuranic radionuclides with low concentration and its movement with groundwater : and ( 5 ) the safety assessment of disposal system
在介绍国内外最新研究进展的基础上,重点讨论高放废物地质处置的若干关键科学问题:处置库场址地质演化的精确预测、深部地质环境特征、多场耦合条件下(中(高)温、地壳应力、水力作用、化学作用、生物作用和辐射作用等)深部岩体、地下水和工程材料的行为、低浓度超铀放射性核素的地球化学行为与随地下水迁移行为及处置系统的安全评价。 |
