研究了铅酸蓄电池电解液中加入添加剂对电池性能的影响。
In this paper the effects of the additives added into the electrolyte of the lead acid battery on the battery performances were studied.
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。
The invention can be applied to the preparation field of the lithium hexafluorophosphate in a lithium ion battery electrolyte.
用途:用作火箭燃料的氧化剂,在电池行业用于生产锂电池电解液。
Purpose: Used in oxidant of rocket's fuel and electrolyte of lithium batteries etc.
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。
Based on the calculation results of these parameters, we can choose electrolyte functional composition of lithium ion battery.
在锂基润滑脂、锂电池电解液及染料的生产流程中,氢氧化锂都是重要原料。
The manufacturing processes of high performance and complex lithium greases, lithium battery electrolytes, and dyestuffs utilize lithium hydroxide as an important raw material.
对磷酸作为VRLA电池电解液添加剂进行了初期容量和循环寿命试验研究。
Phosphoric acid as an electrolyte additive for VRLA battery was studied by testing the battery initial capacity and cycle life.
采用化学反应合成亚硫酸乙烯酯(es)并将其用作锂离子电池电解液添加剂。
Ethylene sulfite (es) is synthesized by chemical method and used as an additive in lithium-ion cell electrolyte.
在锂离子电池电解液中添加4-溴苯甲醚(简称4BA)可提高锂离子电池的过充保护能力。
In order to improve the ability of overcharge protection, 4BA was added as a novel electropolymerizable additive to the electrolyte of lithium-ion batteries.
这种控制防止反应在电池电解液分离了从阳极和阴极当电池使用和加入他们当电池需要使用。
This control prevents reactions in the battery by separating the electrolytic liquid from the anode and the cathode when the battery is not in use and joining them when the battery is in need of use.
本课题的立意在于寻求锂离子电池电解液的低温共溶剂,并考察其对锂离子电池低温电化学性能的影响。
Searching electrolyte low temperature co-solvent and investigating the effect of it on low temperature electrochemical performance of lithium ion batteries are the intentions of this research.
研究了六甲基二硅胺烷(HMDS)作为锂离子电池电解液的稳定剂对电解液稳定性和电化学性能的影响。
Using hexamethyldisilazane (HMDS) as stabilizer of Li-ion battery electrolytes, the influences of HMDS on the stability of electrolyte and electrochemical properties of Li-ion batteries were studied.
本发明涉及锂离子电池电解液。可再充电的锂离子电池包括阳极、阴极和包含一种或多种分散的锂盐的电解液。
A rechargeable lithium-ion battery includes an anode, a cathode and an electrolyte containing one or more dispersed lithium salts.
提出了基于需盐脱硫弧菌以含乳酸盐的海水培养基为电解液的微生物燃料电池。
A microbial fuel cell of laboratory scale employing Desulfovibrio salexigens in lactate based seawater substrate was proposed.
海水包含高浓度的离子,非常类似于电池的电解液。
Seawater has a high concentration of ions, much like the battery's 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。
As well as lithium-iron phosphate, other innovative materials have been used for the three main battery components of anode, cathode and electrolyte.
典型的传统电池,使用的是电解液,会发生令人讨厌的化学反应,从而损坏电池的阴极。
Conventional batteries, which typically use a liquid electrolyte, can suffer from undesirable chemical reactions that damage the battery's cathode.
燃料电池像电池一样,有正、负电极,两极之间是电解液。
Like a battery, they use positive and negative electrodes separated by an electrolyte.
电解液储存在容器外然后泵过电池并将化学能转换为电 能。
The electrolyte is stored in an external tank and pumped through the battery’s cells to convert chemical energy into electricity.
“我们用的染料和电解液都变了,”他表示,在把太阳转变成电流上,这种电池已经变得效率更高了。
“Our dyes andelectrolytes have changed,” he said, and the cells have become more efficientat converting sunlight to electricity.
超级电容器似乎能够兼备速度和耐久性这两个优势,这是因为和电池类似,在构造上它采的是用离子和电解液而不是简单依靠静电荷。
The reason ultracapacitors may be able to bridge the gap between speed and endurance is that, like batteries, they use ions and an electrolyte rather than simply relying on the static charges.
在电池里,带电粒子穿过电解液。
In batteries, charged particles travel through electrolytes.
但不幸的是,使用锰电极的电池储能比钴电极电池相对要少一些,而考虑到锰会融化入电解液中,故其使用寿命也相对较短。
Unfortunately, batteries with manganese-based electrodes store slightly less energy than cobalt-based ones, and also tend to have a shorter life, as manganese starts to dissolve into the electrolyte.
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。
Liquid battery: an early prototype battery has been sawed in half to reveal its electrodes and electrolyte, which are liquid during operation.
每个电池元都包括一个正电极和一个负电极,两个电极用一个浸在导电电解液中的隔离器隔开,该电解液允许离子而不是电子在两个电极之间来回传输(译者注:具体参见下面那个电池结构图)。
Each cell consists of a negative electrode and a positive electrode kept apart by a separator soaked in a conductive electrolyte that allows ions, but not electrons, to travel between them.
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。
The heat causes the battery tovent the organic solvent used as an electrolyte, and the heat (or a nearbyspark) can light it.
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。
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.
然而胶体电解液所含的水量足以使电池运行12 ~14年。
However, colloidal electrolyte contains enough water to make a battery run 12 ~ 14 years.
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。
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.
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。
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。
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.
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