本实用新型结合了超级电容器和铅酸蓄电池两种电流载体。
This utility model combines the two kinds of current carriers: the super-capacitor and the plumbic acid battery group.
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.
各公司正尝试将各种存储技术,从压缩空气泵入洞穴到利用新型超级电容器,投入商业化应用。
Companies are trying to commercialize all kinds of storage technologies, from pumping compressed air into caverns to using new kinds of ultracapacitors.
和最耐反复充电的电池相比,超级电容器仍容易工作寿命更加长久。
And compared with most rechargeable batteries, supercapacitors tend to have a longer working life.
而且,和大部分可充电式电池相比,超级电容器有更长的工作寿命,长期来看更显优势。
And compared with most rechargeable batteries, supercapacitors tend to have a longer working life. In time that too would become a more obvious benefit.
另外一种是超级电容器。
衣电源的确非常酷,但更有趣的是,在崔博士的研究中,这些新的材料还能用来制造超级电容器。
Electrically conductive cloth is all very well, but the more interesting part of Dr Cui's research is that he can use the new material to make something called a supercapacitor.
请参阅:超级电容器能为电话、手提电脑供电数日。
SEE ALSO: Super Capacitor Could Power Phone, Laptop for days.
严格来说这种复合材料与电池并不相似,而更像是一个电容器,或者说是个超级电容器,格林浩尔博士说道。
Strictly speaking the composite behaves not like a battery but more like a capacitor, or rather a supercapacitor, says Dr Greenhalgh.
因此它的作用相当于一个超级电容器。
这个概念是利用一个超级电容器和一个锂电池组成的复合装置来收集和储存能量。
The idea is to harvest the energy and store it using a combination of a super capacitor and a lithium battery.
为拓展碳纳米管的实际应用,对碳纳米管应用于超级电容器的电极材料的特点作了深入分析。
The features of carbon nanotube electrodes for fabricating supercapacitors were analyzed to provide data for practical application of carbon nanotubes.
本文采用超级电容器作为储能装置,提出了一种新型的制动能量回收系统。
A novel breaking energy recovery system, which takes the super capacitor as the energy store device, is presented here.
本文中对超级电容器储能技术进行了研究。
The power storage technique in super capacitors was studied in this paper.
超级电容器具有优异的性能,已成为电动汽车用动力电源的一个理想选择。
Supercapacitor has become an ideal choice of driving power source in electric vehicle for its outstanding performance.
目前,人们提出的复合电源系统主要由“蓄电池+超级电容器”组成,但这种思路把两者比能量低的缺点叠加了,同时电容器的成本较高。
At present, the hybrid power generally composed by "battery + supercapacitor", but this idea overlaps the both shortcomings of low energy density, while the higher cost of the capacitor.
超级电容器的研究主要集中在对高性能电极材料的制备上。
The studies on super-capacitors mainly focus on the preparation of the electrode materials.
近年来国内外对超级电容器的研究或产品日趋增多。
The research and product of Super capacitor has become more and more in recent years.
综述了国内外高功率内阻超级电容器的最新研究进展。
The recent advances of high power low resistance for supercapacitor at home and abroad are reviewed.
但是,超级电容器和化学电池并不一定竞争。
But the supercapacitor and chemical battery are not necessarily in competition.
根据循环伏安曲线、充放电曲线和电化学阻抗谱,研究了超级电容器的电容性能。
The properties of electrochemical super-capacitor assembled with conducting polymers were investigated by cyclic voltammetry, charging-discharging cycles and electrochemical impedance spectroscopy.
超级电容器在通讯、电子、铁路、航空、航天以及军事等领域都具有极其广泛的用途。
Because of so many excellences, super-capacitors have wide applications in communication, electronic industry, railway system, aviation industry, spaceflight industry, military field and so on.
本文综述了碳基材料、金属氧化物及水合物材料和导电聚合物材料作为超级电容器电极材料的最新研究进展。
The recent progress of researches on supercapacitors using carbon material, metal oxides and conducing polymer as electrode materials are described in this review paper.
工作在更高的电压,超级电容器串联连接。
To operate at higher voltages, supercapacitors are connected in series.
介绍了单体超级电容器的特点及超级电容器组的构成。
Characteristic of the simple capacitor and the structure of the ultra capacitor group were introduced.
本文中研究了超级电容器储能系统的发电控制,其中的储能元件采用超级电容器这一新型能源器件。
This paper studies control of the energy system based on super capacitors. Super capacitor, a novel energy storage component, is used here.
最多400超级电容器串联连接,以获得所需的能量存储能力。
Up to 400 supercapacitors are connected in series to obtain the required energy storage capacity.
因为它能够快速充电,大型超级电容器用于再生制动车辆。
Because of its ability to rapidly charge, large supercapacitors are used for regenerative braking on vehicles.
本文设计的超级电容器储能系统能够同时控制有功功率和无功功率,因此它能补偿功率的波动。
This design of the super-capacitor energy storage system is useful for the compensation of fluctuating power since one is capable of controlling both active and reactive power simultaneously.
在这些系统的心脏,升压转换器把低电压高达有用的水平供电电路和超级电容器充电和电池。
At the heart of these systems, boost converters bring low voltages up to useful levels for powering circuits and charging supercapacitors and batteries.
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