Supercapacitors take as much energy as needed.
作为超级电容器的能量需要。
Supercapacitors with an organic electrolyte are affected the most.
与有机电解液超级电容器受到的影响最大。
Supercapacitors are relatively expensive in terms of cost per watt.
超级电容器是相对昂贵,每瓦成本方面。
To operate at higher voltages, supercapacitors are connected in series.
工作在更高的电压,超级电容器串联连接。
On the other hand, supercapacitors still have some technical issues that need to be ironed out.
另一方面,超级电容还有一些技术问题需要解决。
And compared with most rechargeable batteries, supercapacitors tend to have a longer working life.
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。
Up to 400 supercapacitors are connected in series to obtain the required energy storage capacity.
最多400超级电容器串联连接,以获得所需的能量存储能力。
Supercapacitors are an interesting alternative to batteries and rechargeable batteries for energy storage.
超级电容器是一种有趣的替代品,可替代电池和充电电池,用于能量储存。
Because of its ability to rapidly charge, large supercapacitors are used for regenerative braking on vehicles.
因为它能够快速充电,大型超级电容器用于再生制动车辆。
The use for energy storage in supercapacitors enlarges the application fields of activated carbon based on coal.
煤基活性炭在储能超级电容器中的使用拓展了其应用范围。
"Society really needs a low-cost, high-performance energy storage device, such as batteries and simple supercapacitors," he said.
“社会确实需要一个低成本,高性能的能量储存设备,如电池和超级电容器简单,”他说。
Rather than operate as a main battery, supercapacitors are more commonly used as memory backup to bridge short power interruptions.
而不是作为一个主要的电池,超级电容器较常用的记忆备份桥梁短期电力供应中断。
They are now working on ways to boost the efficiency of the batteries and supercapacitors, and investigating different manufacturing techniques.
他们现在的工作就是如何提高电池和超级电容器的效率,并不同的制造技术进行调查。
Carbon nanotubes prepared by a catalytic pyrolysis method were considered as active electrode materials for the storage of energy in supercapacitors.
通过催化裂解法制备了碳纳米管并进一步制备了碳纳米管薄膜电极。
The features of carbon nanotube electrodes for fabricating supercapacitors were analyzed to provide data for practical application of carbon nanotubes.
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。
And compared with most rechargeable batteries, supercapacitors tend to have a longer working life. In time that too would become a more obvious benefit.
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。
At the heart of these systems, boost converters bring low voltages up to useful levels for powering circuits and charging supercapacitors and batteries.
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。
But batteries can't move charge as quickly as some competing devices like supercapacitors, and their performance tends to degrade significantly with time.
但电池也有一些局限,它无法象超级电容那样快速充电,而且随着时间的推移,它的容量会衰减。
Stanford scientists are harnessing nanotechnology to quickly produce ultra-lightweight, bendable batteries and supercapacitors in the form of everyday paper.
斯坦福大学的科学家利用在日常文件的形式纳米技术快速生产超轻量,可弯曲电池和超级电容器。
Supercapacitors could be an ideal storage device for fast, frequent charging, as opposed to the slow, hours-long process used by many of today's plug-in vehicles.
相比如今缓慢的充电过程,超级电容将是快速、频繁充电的理想存储装置。
The recent progress of researches on supercapacitors using carbon material, metal oxides and conducing polymer as electrode materials are described in this review paper.
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。
Layered manganese oxide and its composite has been widely studied over the past decades, for example in catalysts, supercapacitors, magnetic materials, batteries, sensors.
近些年来,层状二氧化锰及其复合材料被广泛应用在催化,超级电容器,磁性材料,传感器,电池等领域。
Supercapacitors are new energy storage, combining the advantages of the high specific power of dielectric capacitors and the high specific energy of rechargeable batteries.
超级电容器作为一种新型的储能元件,兼具了电解电容器的高功率和电池的高比能的优势。
The electrode material is an important component influencing the performance of supercapacitors. Therefore, the research on electrode materials has been a hot topic in this filed.
电极材料的性能是决定超级电容器性能的主要因素,对电极材料的研究一直是该领域的研究热点。
An EPT with supercapacitors energy storage system is proposed in Chapter 3, and the control strategy of the proposed system is given. Also, an experimental research system is built.
第三章提出了一种基于超级电容储能的EPT系统结构,给出了储能型EPT系统的控制策略,并构建了储能型EPT的试验研究系统;
Capacitive performance of various supercapacitors is tested by galvanostatic charge and discharge. And capacitive decay rate, cyclical stability and cycle life are also investigated.
通过恒流充放电法测试不同电容器的电容性能,并考察了超级电容器的电容衰减率、循环稳定性和循环寿命。
The performance simulation was performed for the HEV with SEPS system and the simulated results were compared with those of the HEV with electrically supplied only by batteries or supercapacitors.
对复合电源混合动力汽车进行了性能仿真,并与原车单一蓄电池系统或超级电容系统进行了对比。
The performance simulation was performed for the HEV with SEPS system and the simulated results were compared with those of the HEV with electrically supplied only by batteries or supercapacitors.
对复合电源混合动力汽车进行了性能仿真,并与原车单一蓄电池系统或超级电容系统进行了对比。
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