钒氧化还原流体电池的另外一个优点是:它的容量只受制于储存电解质溶液容器的尺寸。
Another advantage of a vanadium REDOX flow battery is that its capacity is limited only by the size of the tanks used to store its electrolytes.
这种所谓的“氧化还原”流体电池通常用来平衡并网发电以及从风力涡轮或太阳能板中储存电量。
So-called "REDOX" flow batteries are sometimes used to balance grid power and store energy from wind turbines or solar panels.
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。
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.
传统的电池是在两根固定电极中储存化学能的;而流体电池则将其储存在浸入电极,即液体电解质中。
Traditional batteries store the chemical energy in two solid electrodes; flow batteries store it in the liquid electrolyte in which the electrodes are immersed.
位于Pfinztal的Fraunhofer学院化学工艺系的Jens Noack和他的同事将所从事的实验称之为流体电池。
The technology that Jens Noack and his colleagues at the Fraunhofer Institute for Chemical Technology in Pfinztal are experimenting with is called a flow battery.
利用充电蓄电池向阀门充电,流体流动产生的能量可为蓄电池补充电。
The use of rechargeable battery charging to the valve, fluid flow of the energy supplement for battery power.
讨论了碱性锌锰电池负极在放电时宏观上的反应顺序:从锌膏靠近正极部位逐渐进行到负极集流体周围。
When zinc electrode discharge in alkaline zinc-manganese dioxide battery, its reaction sequence in macroscopy was from zinc gelled near positive electrode to close to negative current collector.
模型综合考虑了电池内的流体流动、传热、多组分传递、电化学反应及电压-电流关系等。
The mathematical model simultaneously accounts for the fluid flow, heat transfer, multicomponent transport, electrochemical kinetics and voltage-current relations.
研究了镀铅泡沫碳化矽集流体的结构对铅酸蓄电池极板的设计参数、正极活性物质利用率的影响。
The influence of structure design of Pb-plated reticulated SiC current collector on the plate design parameters and utilization efficiency of PAM of lead-acid batteries was studied.
本发明是电化学电池组电池,其带有流体消耗电极如氧还原电极,以及流体调节系统。
The invention is an electrochemical battery cell with a fluid consuming electrode, such as an oxygen reduction electrode, and a fluid regulating system.
报导了碱锰电池负极集流体自动焊接机的研制。
The automatic machine of anode current collector and bottom plate spot welding was designed and prepared successfully.
在解决电池问题上,工程师们可以采用ANSYS的先进的计算流体力学软件FLUENT去检查电化学,研发先进的电池冷却方案。
In resolving battery problems, engineers apply the advanced CFD technology of ANSYS FLUENT software to examine electrochemistry and to develop advanced battery cooling solutions.
介绍了聚合物锂离子电池正、负极集流体表面的蚀刻与预处理及热压与直接涂布两种电极制备工艺。
The surface etching and pretreatment of the current of positive and negative electrodes of polymer Li-ion batteries was introduced.
第一供给装置可提供第一流体通过电池单元的第一连接端口输送至电池单元的反应区。
The first supply device can provide a first fluid which is conveyed through the first connection port of the cell unit to the reaction region of the cell unit.
分析了材料杂质、空气中的氧、间歇放电过程、集流体状态等引起电池自放电的表观现象和产生的原因;
The apparent phenomena and causes of self - discharge resulted from impurities of materials, oxygen in air, intermittent discharge process and collector state were analyzed;
分析了材料杂质、空气中的氧、间歇放电过程、集流体状态等引起电池自放电的表观现象和产生的原因;
The apparent phenomena and causes of self - discharge resulted from impurities of materials, oxygen in air, intermittent discharge process and collector state were analyzed;
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