1) metal oxide varistor-based surge arrestor
金属氧化物可变电阻避雷器
2) MOA
[英]['məʊə] [美]['moə]
金属氧化物避雷器
1.
Appling of Simultaneous Sampling in MOA Performance Inspection;
同步采样技术在金属氧化物避雷器特性检测中的应用
2.
Analysis on Service Status of MOA in Guangdong Province;
广东省金属氧化物避雷器运行情况分析
3.
Development and Application of MOA Testing Methods;
金属氧化物避雷器试验测试方法的发展及应用
3) metal oxide surge arrester(MOA)
金属氧化物避雷器
1.
This paper introduces the composition of metal oxide surge arrester(MOA) resistive current,and analyzes the influence of power grid harmonics during monitoring on-line on amplitude value and phase of MOA resistive current components.
介绍了金属氧化物避雷器(MOA)阻性电流各分量的构成,分析了在线监测时电网谐波对MOA阻性电流各分量的幅值、相位的影响。
4) metal oxide arrester
金属氧化物避雷器
1.
The author analysed the dynamic characteristics and the simulation model building of metal oxide arrester(MOA).
在雷电冲击下,对金属氧化物避雷器的动态特性和仿真计算中等效模型的建立进行了分析。
2.
The 3 kinds of fault diagnosis method (preventive testing, inspection or detection and infrared photography) for metal oxide arrester (MOA) in operation were introduced, and the influence of ambient conditions on measuring results was analyzed.
介绍了3种目前常用的运行中金属氧化物避雷器(MOA)故障诊断的方法,即预防性试验、监测或检测、红外热成像,并分析了环境条件对测量结果的影响。
3.
The equalizing capacitance for 500 kV metal oxide arrester (MOA) can reduce its non - uniform coefficient of voltage distribution, but it is with other unsafe factors, such as big diameter of external bushing, axle asymmetrical electric field, hard to inspect the performances and drop - down of operation reliability, which is not worthwhile to use it.
对500 kV金属氧化物避雷器(MOA)而言,虽然均压电容能降低其电压分布不均匀系数,但也带来了外套管径变大、电场变为非轴对称电场、性能难以检验及运行可靠性下降等诸多不安全因素,因而使用其得不偿失。
5) metal oxide surge arrester
金属氧化物避雷器
1.
The paper discusses the neutral point earthing method and the selection ofmetal oxide surge arresters in 3~60 kv power system.
对3~60KV电网中性点的接地方式、无间隙金属氧化物避雷器参数的选择等问题进行了分析和探讨,并对应用于小电流接地系统中的一些新技术作了简要介绍。
6) metal oxide arrester(MOA)
金属氧化物避雷器
1.
A 10 kV metal oxide arrester(MOA) that had failed the preventive test was dissected and found damp in the interior.
对一起预防性试验中不合格的10kV金属氧化物避雷器(MOA)进行解剖,发现内部有明显受潮渗水痕迹,通过分析该MOA的密封性,指出绝缘外套与心部之间、阀片之间密封不良是造成MOA受潮的主要原因,提出将整个阀片与其绝缘套作一体式封装,可以彻底解决受潮隐患。
补充资料:钴钼氢氧化物氧化物磷酸盐
CAS:68130-37-0
中文名称:钴钼氢氧化物氧化物磷酸盐
英文名称:Cobalt molybdenum hydroxide oxide phosphate; Molybdenum cobalt acid phosphate complex; Molybdenumcobaltacid phosphate complex
中文名称:钴钼氢氧化物氧化物磷酸盐
英文名称:Cobalt molybdenum hydroxide oxide phosphate; Molybdenum cobalt acid phosphate complex; Molybdenumcobaltacid phosphate complex
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