1) nitrogen injection
注氮
1.
Numerical simulation of preventing spontaneous combustion by nitrogen injection in goaf of Y-type ventilation face;
Y形通风采空区注氮防灭火的数值模拟
2.
Aiming at the problems of marginal water going up and oil production going down during sticky oil exploration,Shengli Oilfield adapted new technology of nitrogen injection with newly developed equipment to do enhanced production in order to raise oil production rate and reduce water content.
针对稠油油田在开发过程中边底水不断上升,而产油量持续下降的严峻形势,为提高原油采收率,降低采油综合含水率,胜利油田积极引进了三次采油的注氮新工艺、新设备,开辟增油新途径。
2) nitrogen implantation
注氮
1.
The experimental results show that the radiation hardness of the buried oxides is very sensitive to the doses of nitrogen implantation for a lower dose of irradiation with a Co-60 source.
实验结果表明, 在使用Co 60 源对埋氧层进行较低总剂量的辐照时,埋氧层的总剂量辐射硬度对注氮剂量是非常敏感的。
2.
To suppress boron impurities diffusion into channel,nitrogen implantation into polysilicon gate is performed at optimized dose and energy.
为了改善深亚微米 CMOS器件 p+ - poly栅中硼扩散问题 ,通过选择合适的注氮能量和剂量 ,采用多晶硅栅注氮工艺 ,既降低了硼在多晶硅栅电极中的扩散系数 ,又在栅介质内引入浓度适宜的氮 ,有效地抑制了硼在栅介质内的扩散所引起的平带电压漂移 ,改善了 Si/Si O2 界面质量 ,提高了栅介质和器件的可靠性 ,制备出了性能良好的4 。
3.
However, it has been found by the C-V technique employed in this work that there is an obvious increase of the fixed positive charge density in the nitrogen-implanted BOX with a 150 nm thickness and 4×10 15 cm -2 nitrogen implantation dose, compared with that unimplanted with nitrogen.
在SIMOX SOI材料的埋氧中注氮是为了增强该类材料的抗辐射能力。
3) injection and flow back of liquid Nitrogen
液氮注排
4) nitrogen injection
注氮气
1.
Study of numerical simulation for gravity drive of crestal nitrogen injection in gas-cap reservoir;
气顶油藏顶部注氮气重力驱数值模拟研究
2.
Production performance analysis of nitrogen injection in high water-cut reservoir;
高含水油藏注氮气开采效果分析
3.
This article introduces the water-cut reducing and stimulation mechanism of nitrogen injection as well as its field application in Xianhe fault-block oilfield by using different injection means such as nitrogen soak, nitrogen-water alternating flooding and foam flooding.
着重在通过氦气对地层由膨胀降粘及长岩心水气交替物模实验基础上介绍了注氮气降水增油机理和在现河断块油田采用氮气吞吐、气水交替驱以及泡沫驱等不同注入方式下的矿场实践情况,分析了影响注气效果的因素,为断块油田注氮气提供一些经验。
5) nitrogen injection with buried pipe
埋管注氮
6) nitrogen injection effect
注氮效果
补充资料:1-[[4-[(二甲基苯基)偶氮]二甲基苯基]偶氮]-2-萘酚
CAS:1320-06-5
分子式: C26H24N4O
分子量: 408.50
中文名称: 1-[[4-[(二甲基苯基)偶氮]二甲基苯基]偶氮]-2-萘酚;;溶剂红27;油红 O
英文名称: 1-[[4-[(dimethylphenyl)azo]dimethylphenyl]azo]-2-Naphthalenol
1-[[4-[(dimethylphenyl)azo]dimethylphenyl]azo]-2-naphthaleno;oil red o;solvent red 27;abcol oil red o
2-Naphthalenol,1-[[4-[(dimethylphenyl)azo]dimethylphenyl]azo]-
分子式: C26H24N4O
分子量: 408.50
中文名称: 1-[[4-[(二甲基苯基)偶氮]二甲基苯基]偶氮]-2-萘酚;;溶剂红27;油红 O
英文名称: 1-[[4-[(dimethylphenyl)azo]dimethylphenyl]azo]-2-Naphthalenol
1-[[4-[(dimethylphenyl)azo]dimethylphenyl]azo]-2-naphthaleno;oil red o;solvent red 27;abcol oil red o
2-Naphthalenol,1-[[4-[(dimethylphenyl)azo]dimethylphenyl]azo]-
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