This paper is about rapid method to remove the impurities in battery electrolyte.
本文是关于从电液中去除杂质的快速方法。
Gel battery electrolyte and solid, sealing structure, gel electrolyte, never leakage, to keep the proportion of each part.
胶体电池的电解质呈固态,密封结构,凝胶电解液,永不漏液,使电池内每一部位的比重保持一致。
The invention can be applied to the preparation field of the lithium hexafluorophosphate in a lithium ion battery electrolyte.
本发明可应用于锂离子电池电解液中的六氟磷酸锂的制备领域。
In addition, the battery electrolyte liquid surface plate must be higher than 10-15 millimeter, should add distilled water shortage in time.
另外,蓄电池的电解液液面必须高于极板10 - 15毫米,不足时应及时添加蒸馏水。
Thus, distinguishes between two kinds of battery electrolyte "fixed" way and provide oxygen to the cathode channel differently, thus the performance of the two kinds of battery also.
由此看出,两种电池的区别就在于电解液的“固定”方式和提供氧气到达负极通道的方式有所不同,因而两种电池的性能也也。
Electrolyte: in gel state, no delamination, battery electrolyte circulation performance is good; The electrolyte density low, slow on board gate corrosion, floating battery life is long.
电解质:呈凝胶状态,电解液无分层、电池循环性能好;电解液密度低、减缓对板栅腐蚀,电池浮充寿命长。
More than 4, playing in the winter time, want to check the height of the electrolyte, assumes that the less time counter, avoid rabbit frozen and then affect Germany sunshine battery electrolyte.
在冬天打的时分,要多检查电解液的高度,假定少了及时抵偿,避兔电解液结冰然后影响德国阳光蓄电池的功用。
Produced in Germany sunshine battery electrolyte dry, thermal runaway, early capacity loss, internal short circuit, which seriously affect the reliability of power supply system. Have a data sheet.
产生了德国阳光蓄电池的电解液干涸、热失控、早期容量损失、内部短路等问题,进而严重影响到供电系统的可靠性。有资料表。
As well as lithium-iron phosphate, other innovative materials have been used for the three main battery components of anode, cathode and electrolyte.
与锂-铁磷酸盐一样,其他新型材料已经用到了电池的三个主要部件,阳极、阴极和电解液。
Liquid battery: an early prototype battery has been sawed in half to reveal its electrodes and electrolyte, which are liquid during operation.
液态电池:图为从中间切开的这种电池早期的原型,可以看到它的两极和里面工作的电解液。
A battery's electrolyte is the material through which ions (in this case lithium ions) pass from one electrode (the cathode) to another (the anode) inside a battery cell.
电池的电解质能让离子(此处为锂离子)自电池内部从一个电极(负极)传递到另一个(正极)。
Like a battery, they use positive and negative electrodes separated by an electrolyte.
燃料电池像电池一样,有正、负电极,两极之间是电解液。
It is possible to make such a battery with a solid electrolyte, but until now that has been done by a process called vacuum deposition.
用固态电解质来生产这样的电池是可能的,但目前锂离子电池还是通过真空镀膜的方式来生产。
There is, though, another way to recharge a flow battery: pump out the discharged electrolyte and replace it with a solution that has been recharged elsewhere.
另外,还有一种方法可以使流体电池重新充电:将释放电量的电解质溶液抽空,然后重新充入溶液。
When the battery is being charged, positively charged lithium ions break away from the cathode and travel in the electrolyte to the anode, where they meet electrons brought there by a charging device.
电池充电时,从负极分离的锂离子经过电解质运动到正极,并和由充电装置提供的电子相遇。
The more energy packed into a battery, the higher the danger that the liquid electrolyte will catch fire.
电池存储的能量越多,液态电解质着火的危险就越大。
As in a NiCad battery, the NiMH's anode is made of nickel oxyhydroxide immersed in an electrolyte of potassium hydroxide.
就像镍镉充电电池一样,金属氢化镍电池的阳极是由浸泡在氢氧化钾电解质中的羟基氧化镍制作而成。
Based on the calculation results of these parameters, we can choose electrolyte functional composition of lithium ion battery.
根据对这几个参数的计算结果,可选择所需要的锂离子电池电解液功能组分。
Heating and burning will melt the battery separator, causing loss of protection function or burning of electrolyte and overheat will cause heating, smoking, deformation or burning of batteries.
加热和焚烧电池将会造成电池隔离物的融化、安全功能丧失或电解质燃烧,过热就会使电池发热、冒烟、变形或燃烧。
Because in the discharge process of chemical reaction, can make the electrolyte to the vain, also can make bubbles rising along the trough, can make Germany sunshine battery drop down the sink.
因为在放电过程中的化学反响,可以使电解液向轻贱,也可以使气泡沿槽的上升,可以使德国阳光蓄电池掉落沿槽下沉。
The anode and cathode materials, electrolyte and its additives, structure of battery and manufacture process had important effect on the safety of Li-ion battery.
正负极材料、电解液及其添加剂、电池的结构以及制备工艺条件都对锂离子电池的安全性有重要的影响。
Electrode materials, electrolyte and separator are important parts of lithium-ion batteries, which can influence the performance of battery directly.
电极材料、电解质和隔膜是锂离子电池重要组成部分,直接影响电池的性能。
Membrane while keep the battery in the bulk of the electrolyte, but must make 10% don't enter the electrolyte membrane pore.
膜中虽然保持了电池的大部分电解液,但必须使10%的隔膜孔隙中不进入电解液。
The heat causes the battery tovent the organic solvent used as an electrolyte, and the heat (or a nearbyspark) can light it.
高温导致电池排除作为电解液的有机溶剂,并且热量(或者附近的火星)能够点燃有机溶剂。
When you connect a load on the battery, the metals slowly react and dissolve into the electrolyte, ionize, and the electrolyte portion is getting larger, as the electrodes get thinner.
当您连接上的电池负载时,金属缓慢反应,进入电解液,解散电离和电解质的部分越来越大,作为电极变薄。
The three primary functional components of a lithium ion battery are the anode, cathode, and electrolyte, for which a variety of materials may be used.
锂离子电池的三个主要功能部分是阳极、阴极和电解液,当然还要使用其它各类材料。
However, colloidal electrolyte contains enough water to make a battery run 12 ~ 14 years.
然而胶体电解液所含的水量足以使电池运行12 ~14年。
In this paper the authors described the characteristics of the rechargeable electrolyte of neutral Mn-Zn battery and its application in dry and wet battery charge and discharge.
本文提出中性锌—锰电池可充性电解液的配方特点,并阐述了将其用于湿电池和干电池的充放电情况。
The battery-maker's dilemma is that the recharging rate depends on the area of contact between electrolyte and electrode.
让蓄电池制造商左右为难的是,充电的速度取决于电解质与电极之间接触的面积。
The battery-maker's dilemma is that the recharging rate depends on the area of contact between electrolyte and electrode.
让蓄电池制造商左右为难的是,充电的速度取决于电解质与电极之间接触的面积。
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