1)  battery formation
蓄电池组内化成
1.
The traditional practice of SCR charging/discharging power supplies for plate formation(tank formation)is now widely applied in battery formation(jar formatuion).
分析了目前广泛使用的可控硅 (SCR)槽化成充 /放电电源用于铅酸蓄电池组内化成的弊端 ,论述了一种SCR与新型电力电子器件IGBT (BJ MOSFET绝缘栅双极型功率晶体管 )综合运用的高频充 /放电化成电源的基本原理及设计方案。
2)  Battery factory
蓄电池厂
3)  battery
蓄电池
1.
Analysis of battery activation of hardware electric circuit based on combinatory charging method;
基于组合充电法的蓄电池激活硬件电路研究
2.
Design of controller with ultracapacitor-battery hybrid energy on a stand-alone PV system;
超级电容器-蓄电池应用于独立光伏系统的储能设计
3.
Design and Implementation of a Battery On-Line Monitoring System Based on GPRS;
基于GPRS的电力系统蓄电池在线监测系统的设计与实现
4)  storage battery
蓄电池
1.
Study of an energy saving device for storage battery charge or discharge;
一种节能型蓄电池充放电装置的研究
2.
The Invalidation Modes and Effective Measures of the Sealed Valve Regulated Lead Acid Stationary Storage Battery;
阀控密封铅酸蓄电池(VRLA)的失效模式及采取的有效措施
3.
Capacity calculation for storage battery of Taisha substation;
太沙变电所蓄电池容量的计算
5)  Accumulator
蓄电池
1.
Accumulator and Direct Current System Operation;
蓄电池和直流系统的运行
2.
Study and Design of New Discharge Vehicle for Accumulator;
蓄电池用新型放电车的研究与设计
3.
SRD Power Convertor s Design Supplied Power by Accumulator;
基于蓄电池供电的SR电机功率变换器设计
6)  storage battery
蓄电池式
参考词条
补充资料:电池内化成
分子式:
CAS号:

性质:未经化成的生极板先组装成蓄电池,然后再在蓄电池槽中进行的化成。湿荷电蓄电池生产多采用电池内化成工艺。

说明:补充资料仅用于学习参考,请勿用于其它任何用途。