1) electrolysis reflux
电解回流
2) electrolytic recovery
电解回收
4) return stroke current
回击电流
5) Loop Current
回路电流
1.
Node voltage and loop current functions of electric power network are established on the base of equivalent π-model network, with nodal injected power being equal to voltage source and impedance branches to the link branches and grounding branches to the tree branches, in order to form the complex analysis method for power flow calculation.
在π型等值的基础上,将节点注入功率等值为电压源,而以阻抗支路为链支、接地支路为树支,建立网络的节点电压方程和回路电流方程,从而形成混合分析方程,并在极坐标系情况下,推导支路电流与节点注入功率的灵敏度关系;以一个小的算例来介绍灵敏度矩阵的简化计算方法。
2.
A method of formulating the node voltage equation and loop current equation is discussed in node formulation and loop formulation, when the voltage resource is in parallel connection with resistance (current resource or both in parallel connection) and the current resource is in series connection with the resistance (voltage resource or both in series connection).
本文讨论了当电路中含有与理想电压源支路并联的电阻 (电流源或二者的串联 )及含有与理想电流源串联的电阻 (电压源或二者的串联 )时 ,节点电压方程和回路电流方程的简便列法 。
6) reflux of electron
电子回流
1.
In this paper, the magnetic field s and the electric field s influence on the reflux of electron of high voltage vacuum diode is analyzed.
真空高压二极管中的电子回流是造成绝缘子表面闪络的重要因素。
补充资料:电解回流
分子式:
CAS号:
性质: 用电能将液相转变为气相实现回流的方法。H2O(g)-H2体系富集D时,交换塔底部设置水电解槽,作底回流器将水电解转变成氢,2H2O2H2↑+O2↑个回流入塔。电解法是不可逆回流,本身的分离系数相当大,也可起富集氢同位素作用,但耗电量太大,用水电解作底回流的H2O(g)-H2交换法早已不用了。
CAS号:
性质: 用电能将液相转变为气相实现回流的方法。H2O(g)-H2体系富集D时,交换塔底部设置水电解槽,作底回流器将水电解转变成氢,2H2O2H2↑+O2↑个回流入塔。电解法是不可逆回流,本身的分离系数相当大,也可起富集氢同位素作用,但耗电量太大,用水电解作底回流的H2O(g)-H2交换法早已不用了。
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