1) total electric field strength
合成电场强度
2) reduced electric field intensity
折合电场强度
3) total electric field
合成场强
1.
In order to research and define electric-magnetic environment effect and corona loss on HVDC transmission line,the total electric field around HVDC transmission line is discussed.
为研究和确定高压直流输电线路的电磁环境影响及电晕损耗,分析了高压直流线路周围的合成场强,根据Deutseh假设,认为空间电荷不影响场强的方向,只影响其大小,从而把合成场强的二维计算变为以电位为变量的函数一维计算。
2.
In trial performance period of 500kV San-Hu DC power,the total electric field and radio interference level in the both conductors arrange were measured.
±500 kV三沪直流输电线路极导线垂直排列方式在世界上首次应用于工程,系统了解这种导线布置方式下地面合成场强、无线电干扰等电磁环境水平,可为今后广泛应用于直流输电工程设计,以减小线路走廊宽度、满足电磁环境要求提供技术支持,故在±500 kV三沪直流线路调试期间,依据环评标准测量了极导线垂直排列和水平排列线下的电磁环境参数。
3.
In this paper,the validity of the semi-experiential formulas to calculate the total electric field and the ion current density is testified.
然后使用该方法分析了极导线水平排列的±800 kV直流线路合成场强、标称场强和离子流密度的影响因素和变化规律。
4) electric field strength
电场强度
1.
The influence to ADSS cable of electric field strength;
电场强度对ADSS光缆的影响
2.
Calculation for maximum electric field strength within cover contact;
触头盒内最大电场强度的计算
3.
When the electric field strength was changed from 100 V/cm to 375 V/cm,the mobility was varied as a complex function of fragment size and electric field.
改变电场强度100~375V/cm,得到的迁移率曲线与电场强度和DNA片段长度成复杂的函数关系,已有的经典理论模型:Ogston模型、Reptation无拉伸模型和Reptation拉伸模型都不能正确地描述实验观察到的迁移率随电场强度和DNA片段长度的变化情况。
5) Electric-field intensity
电场强度
1.
The electric-field intensity inside and outside of the spherical cavity in polarized homogeneous dielectric are recalculated by use of Laplace equation, and the conclusion are different from those in some textbooks.
运用拉普拉斯方程对均匀极化电介质被挖出一个球形空腔的内、外电场强度进行了新的运算,得到了与一些教材不同的结论。
2.
By using the theory of complex variable function and conformal transformation, the cross-section of two parallel columns are converted into the cross-section of two parallel plates, and the capacity, electric potential and electric-field intensity of the two parallel columns per unit length are calculated.
运用复变函数、保角变换等理论,把横截面为两平行圆柱变换成横截面为两平行板,计算出两平行圆柱单位长度的电容、电势和电场强度。
3.
Electric-field intensity acting on dielectric and the operation temperature of dielectric are the main factors stressing on the power capac itors.
影响电力电容器的使用寿命的主要因素即作用在介质上的电场强度和介质的运行温度。
6) Electric field intensity
电场强度
1.
The distribution diagrams of electric potential and electric field intensity in dot-charge system based on MATLAB;
基于MATLAB构建点电荷系的电势与电场强度分布图
2.
Calculation of electric field intensity of high voltage direct current transmission lines;
高压直流输电线路电场强度计算方法
3.
Series solution of electric field intensity on perpendicul araxis of elliptic charged ring;
椭圆形带电环垂直轴上的电场强度级数解
补充资料:电场强度
电场强度 electric field intensity 描述电场的基本物理量。简称场强。电场的基本特征是能使其中的电荷受到作用力 ,电场中某一点的电场强度E 定义为放在该点的静止试验电荷所受的 f与其电量q的比值,即E = f/q。试验电荷的电量、体积均应充分小,以便忽略它对电场分布的影响并精确描述各点的电场。场强是矢量,其方向为正的试验电荷受力的方向,其大小等于单位试验电荷所受的力。场强的单位是伏/米,1伏/米=1牛/库。场强的空间分布可以用电力线形象地图示。电场强度遵从场强叠加原理,即空间总的场强等于各电场单独存在时场强的矢量和,即 说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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