阳极电解液和阴极电解液的循环和下流管安装在反应器组件的外部。
Circulating and flowing-down tube of anolyte and that of catholyte are installed outside the reactor components.
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.
在电池里,带电粒子穿过电解液。
In batteries, charged particles travel through electrolytes.
这会产生电流并使金属在电解液中重新合成。
That generates electricity and causes the metals to recombine in the electrolyte.
他们被浸没在正负离子溶于溶剂的电解液中。
And they're immersed in an electrolyte made of positive and negative ions dissolved in a solvent.
电解液为95%的硫酸溶液。
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.
外观:明显缺陷,如防爆阀打开、电解液泄露等。
Appearance: remarkable abnormality such as pressure relief vent opening, electrolyte leaking, etc.
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.
这两种方法都是在空隙被电解液填满之前对导电构架进行电镀。
In both cases these are electroplated onto the structure before the remaining gaps are filled with liquid electrolyte.
但是电解液会挥发,因此当这种肌肉暴露在空气中时就会干涸。
But the electrolyte can evaporate, causing the muscle to dry out when exposed to the air.
浮充电流小,电池发热量少,电解液不发生酸分层。
Small floating charge current, less calorific power battery, the electrolyte acid stratification does not occur.
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.
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.
它是丝状的,以锡的氧化物为正极,锂钴氧化物为负极,悬浮在离子电解液中。
It's a filament made from tin oxide anode and lithium cobalt oxide cathode suspended in an ionic liquid electrolyte.
然后他注意到自己的生物信号:衰退的血压,不稳定的心跳,电解液失常。
Then he noticed his bio signs: failing blood pressure, erratic heartbeat, electrolytes all wrong.
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.
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.
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.
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.
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.
一旦电解液被聚合物吸入,那这些液体就得待在里面,直到新输入的电压把它们给排出去。
Once in the polymer, the electrolyte stays there until a newly applied voltage coaxes it out.
离子通过中间的电解液从石墨极流向磷酸极而电子则通过外部的电路流动,由此作有用功。
The ions pass from the graphite to the phosphate through an intervening electrolyte while the electrons make the journey via an external circuit that allows them to do useful work.
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.
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.
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。
Membrane while keep the battery in the bulk of the electrolyte, but must make 10% don't enter the electrolyte membrane pore.
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.
不幸的是,这一个违反电中性的原理,在这个理论中不同带电的电解质如同水电解液那样是电中性的。
Unfortunately, the finding violates the principle of electric neutrality, in which the differently charged molecules of an electrolyte like water cancel out.
不幸的是,这一个违反电中性的原理,在这个理论中不同带电的电解质如同水电解液那样是电中性的。
Unfortunately, the finding violates the principle of electric neutrality, in which the differently charged molecules of an electrolyte like water cancel out.
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