Criticality safety in processing and handling fissile materials - part 3 : criticality data for plutonium 239 metal light - water - mixtures 处理和搬运核燃料时的临界安全性.第3部分:钚239金属-
Criticality safety in processing and handling fissile materials - part 5 : criticality data for plutonium 239 dioxide light - water - mixtures 处理和搬运核燃料时的临界安全性.第5部分: 239二氧化
Criticality safety in processing and handling fissile materials - part 6 : criticality data for plutonium 239 nitrate light - water - mixtures 处理和搬运核燃料时的临界安全性.第6部分:钚239硝酸
Criticality safety in processing and handling of fissile materials - part 8 : criticality data of uranyl nitrate 100 % uranium 235 light - water mixture 核燃料的处理和和搬运时的临界安全性.第8部分:硝酸双
The type of reactor that will continue to dominate for at least two decades , probably longer , is the light - water reactor , which uses ordinary water ( as opposed to heavy water , containing deuterium ) as the coolant and moderator 在未来起码20年间(可能还要更久) ,轻水反应器将仍旧是主要的反应器类型,这种反应器以普通的水(而非含有氘的重水)来当做冷却剂与缓和剂。
As per the basic systematic analytical theory , an in - depth study of the structure and impact aspects of the wind - light - water supplementary development system is also made . accordingly systematic analysis and optimizing mathematic models are established 并按系统分析基本原理,对风、光、水互补开发系统的构成及影响因素进行了详细分析,建立了相应的系统分析及优化数学模型。
This paper focuses on the energy utilizing and the systematic analysis for the development mode of wind - light - water resources supplement in the region . the calculation analysis results indicate that , a comprehensive energy utilizing mode with multi - energy supplements is one of effective ways to meet the power consumption requirements for no - water counties and remote countryside , it is also one of a direction towards which the energy industry in all area develops in future 本文的重点是研究区内能源利用方案和风、光、水多能互补开发方式的系统分析,计算分析成果表明,采用多能互补的能源综合利用方案是满足阿里地区近期无水电县及边远乡、村用电需求的有效途径之一,也是阿里地区能源工业长远发展的方向之一。
