本文介绍一种应用MOS集成电路测量可逆电池电动势的新方法。
A new method of measuring the electromotive force of reversible cells using MOS intergrated circuit is presented.
一些电池是基于一些可逆的化学反应。
Some batteries are based on an underlying chemical reaction that can be reversed.
实验结果表明,使用这种电极可使电池的可逆性明显改善,提高其循环寿命和充放电容量。
The experimental results showed this electrode can improve reversibility of the battery and increase its charge discharge capacity, cycle life.
研究了因不可逆硫酸化引起早期失效铅酸蓄电池容量恢复的可行性。
The feasibility of capacity recovery of sulphated lead acid battery(premature capacity loss)was studied.
粉末微电极和模拟电池实验显示该材料具有良好的循环可逆性。
The results of powder microelectrode and in simulated batteries showed that the material had excellent cyclic performance.
锌作为电池负极材料,其优点有:平衡电位低、可逆性好、质量比能量和体积比能量高,而且锌资源丰富、价格低廉、毒性小、易处理。
Zinc acts as negative material of batteries, with the advantages of low equilibrium potential, good reversibility, high specific energy, rich resources, low cost, little poison and easy treatment.
另外必须使电池处于半充满状态贮存,以防止电池因自放电而产生过放电,发生不可逆容量损失。
In addition, the battery should be store in half-charging state, in order to avoid over-discharge caused by self-discharge, and this will lead to irreversible capacity loss.
可逆质子交换膜燃料电池(RPEMFC)是一种在同一装置上实现水电解(充电)和燃料电池发电(放电)两种功能的储能电池。
Reversible proton exchange membrane fuel cell (RPEMFC) is an electrochemical cell working both as the water electrolyzer (charging) and fuel cell (discharging).
可逆质子交换膜燃料电池(RPEMFC)是一种在同一装置上实现水电解(充电)和燃料电池发电(放电)两种功能的储能电池。
Reversible proton exchange membrane fuel cell (RPEMFC) is an electrochemical cell working both as the water electrolyzer (charging) and fuel cell (discharging).
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