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.
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.
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.
在断路情况下,在与基准电极相关的电解液中,表面受到侵蚀的潜在可能性。
The potential of a corroding surface in an electrolyte relative to a reference electrode under open-circuit conditions.
采用交流阻抗法研究硫化矿碳糊电极体系在氯化钠电解液中的界面动力学行为。
The interface dynamic behaviors of sulfide mineral carbon paste electrodes in NaCl electrolyte were investigated by alternating current impedance technique.
试验阶段的锂硫电池极易破裂,原因是电极中的硫会慢慢溶解到电解液里面。
Experimental lithium-sulphur cells tend to wear out, because the sulphur in their electrodes gradually dissolves into the electrolyte.
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。
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.
此外,还试验了对电极与电解液对转换效率的影响。
Furthermore, the influence of the counter electrodes and electrolytes on the conversion efficiency have been tested.
综述了全钒液流电池的关键材料的研究进展,其重点包括电极材料、电解液和隔膜。
The research progress in the key material of the all-vanadium redox flow battery was reviewed. The emphasis was focused on the electrode(materials, ) the electrolytes and the membranes.
本试验研究了电解液组成及某些添加剂对铅电极极化和电解液导电率的影响。
In this experiment was investigated the influence of electrolyte composition and some addition agents on the polarization of lead electrode and the conductivity of electrolyte.
通过三电极电池研究发现,锂离子电池在低温充电过程中出现的金属锂的沉积与电解液种类、充电倍率和截止电压等因素有关。
We found by the three-electrode experimental cell, deposition of metallic lithium during low-temperature charging is related to electrolyte, charging rate, cut-off voltage and so on.
在不同VOSO4及H2SO4浓度的试验中发现处理后的电极在高浓度的电解液中具有良好的性能。
Meanwhile, the experiments of the concentration of H2SO4 and VOSO4 show that these treated electrodes have good performance in the electrolyte with high concentration.
讨论了电极活化条件、电流密度、电解液温度等因素对电解还原反应的影响。
The effects of electrode activation condition, current density, electrolyte temperature on electrolytic reduction are discussed.
探讨了复合电极中PTFE含量、阴极电流密度、电解液温度、电解电量对频那醇产率的影响。
Effects of PTFE content in electrode, current density, temperature of electrolyte and electric quantity on pinacol yield was discussed.
应用线性电势扫描法研究硫化矿的纯矿电极与碳糊电极体系在氯化钠电解液中的电化学行为。
The cyclic voltammetry curves of sulfide mineral electrodes or corresponding carbon paste electrodes in NaCl electrolytes have been obtained in this study.
本文使用铝合金作阳极、空气电极作阴极、氯化钠溶液作电解液,组装了开放式结构铝空气电池,同时使用镁阳极组装了封闭式结构镁空气电池。
The aluminum-air battery with open configuration was successfully assembled using Al alloy as anode, air electrode as cathode and NaCl solution as electrolyte.
研究了发泡金属电极的性质,得出了描述发泡金属电极床层中宏观反应速率、反应速率随时间的变化、床层中电解液的电势分布方程式。
The characteristics of foamed metal electrodes are investigated to study electric potential distribution in electrolytes on foamed metal cathodes and the mathematical models are proposed.
该电池包括有全部容置于该容器内的正电极、负电极和水碱性电解液。
The cell has a positive electrode, a negative, and an aqueous alkaline electrolyte, all disposed in the container.
为了解决这些问题,常常在锌电极或电解液中加入添加剂,详细介绍了在电极和电解液中常用的各种添加剂。
In order to resolve the problems, additives are often added to electrode or electrolyte. The usual additives for electrode and electrolyte are introduced in this paper in detail.
针对上述情况,本文利用电化学方法对锌电极添加剂、电解液添加剂进行了初步的研究。
This paper is mainly to find solutions to above problems in order to obtain long life zinc electrode by these methods that electrode additive and electrolytic additive add to zinc electrode.
本发明涉及一种膜电解槽的电极,其包括有利于在其表面上气体释放和电解液更新的有凹槽的金属支撑物。
The invention relates to an electrode for membrane electrolysis cells comprising a grooved metal support favouring the gas release and the electrolyte renewal on its surface.
公开了一种锂离子电容器,包括正电极、负电极、和作为电解液的非质子有机溶剂型锂盐溶液。
Disclosed is a lithium ion capacitor comprising a positive electrode, a negative electrode, and an aprotic organic solvent solution of a lithium salt as an electrolyte solution.
公开了一种锂离子电容器,包括正电极、负电极、和作为电解液的非质子有机溶剂型锂盐溶液。
Disclosed is a lithium ion capacitor comprising a positive electrode, a negative electrode, and an aprotic organic solvent solution of a lithium salt as an electrolyte solution.
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