Much research focuses on REDOX flow batteries in recent years.
氧化还原液流电池是近年来研究的一个热点。
In a chemical reaction, an enzyme triggers a REDOX flow from the lactate which can be measured using electrodes.
在化学反应中,能够用电极上的一种酶来测量液流中的乳酸。
In the meanwhile, the three key technologies of developing vanadium REDOX flow cell and the way to the problem are put forward.
同时介绍钒电池制备和应用时的三大技术关键及一定的解决方法。
All vanadium REDOX flow battery (VRB) is a novel electrochemical apparatus which can transfer and store electricity effectively.
全钒液流电池是一种新型高效电能转化与储存装置。
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.
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。
It is pointed out that the vanadium REDOX flow battery is a novel and promising energy storage system, especially in environmental protection.
本文通过介绍钒氧化还原液流电池的原理和特点,指出钒电池是一种潜力巨大的新型环保储能电池。
The effect of concentration and additive of vanadium ion redox flow battery on positive reaction was investigated by the means of cycle voltammetry.
采用循环伏安法研究了全钒离子液流电池正极溶液的浓度及添加剂对正极反应的影响。 研究了两种离子交换膜对钒电池性能的影响。
Vanadium-bearing carbonaceous shale is a new type of vanadium ore. All-vanadium REDOX flow cell is a new energy storage unit. The battery has been developed.
含钒石煤是我国的一种新型钒矿资源,本文用从石煤中提取的V_2O_5研制全钒氧化还原电池。
In this paper, integral composite electrodes of vanadium REDOX flow battery were prepared using modified PAN-based graphite felt and carbon plastic plate with polymer matrix.
采用改性处理的聚丙烯腈基石墨毡和聚合物为基体的碳塑板制备得到了钒电池用一体化复合电极。
It was pointed out that redox flow batteries, which possess advantages of low capital cost, high energy efficiency and long lifetime, were the most promising commercial technologies.
介绍了各种储能方式及其特点,综述了大型储能技术的研究开发状况,其中氧化还原液流电池具有成本低、效率高、寿命长等优点,商业化前景看好。
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.
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。
So-called "REDOX" flow batteries are sometimes used to balance grid power and store energy from wind turbines or solar panels.
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。
PHREEQC was applied to simulate the processes of cation exchange and kinetic redox with 1-D groundwater flow.
本文利用该模拟软件对一维地下水流动过程中溶质离子交换反应和动态氧化还原反应进行了模拟。
PHREEQC was applied to simulate the processes of cation exchange and kinetic redox with 1-D groundwater flow.
本文利用该模拟软件对一维地下水流动过程中溶质离子交换反应和动态氧化还原反应进行了模拟。
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