We can recycle used Li-ion batteries.
Gaines 研究表明如果锂离子电池能够有效回收利用,用于生产锂离子电池的锂需求将会减少一半。
Li-Ion rechargeable batteries and in-camera charging.
锂离子可充电电池以及机内充电。
The equivalent for electric cars is the lithium-ion battery, or Li-ion.
对电力汽车来讲,这一革新将是锂离子电池。
Recent Developments in Cu Foil as a Current Collector of Li-ion Battery.
锂离子电池铜箔负极集流器的最新开发。
The development trend of equalization circuit of Li-ion batteries was viewed.
展望了锂离子电池组均衡电路的发展趋势。
Sony, Sanyo, and Panasonic make up a very large part of the Li-ion cell supply.
索尼、三洋、松下占锂离子电池供应的很大一部分。
To illustrate the battery stack architecture, consider a system with 96 Li-ion cells.
为了说明这种电池组架构,我们考虑一个有96节锂离子电池的系统。
This paper mainly recounts the research and design of a Li-Ion battery testing system.
本文主要叙述了锂离子电池测试系统的研究与设计。
EEI has recently fabricated and tested Li-Ion cells using new and innovative electrode materials.
EEI公司最近正使用新型电极材料制造和测试锂离子电池。
A dedicated Li-ion battery, which is built into the lens barrel, powers the zoom and autofocus.
镜头内部装有专用的锂电池,为镜头变焦和自动对焦提供电力。
HBH Smart Li-ion Battery Pack is the best choice as a green power for various electro-thermal costume.
HBH智能聚合物锂电池组是当今各类电热服装最优的绿色环保能源。
"It's a totally new car," he said, adding that it will be larger and will likely get a Li-ion pack in 2010.
完全是个新概念的车'他说并补充新车将会更大并配有一个锂粒子电池后备在2010年发布时。
Optimizing parameters of electrodes could improve the electrochemical performance of polymer Li-ion batteries.
优化电极参数可以提高聚合物锂离子电池的电性能。
The production and assembly of two kinds of Li-ion batteries, cylindrical and prismatic cells were introduced.
介绍了产业化的锂离子电池生产工艺和流程,包括圆柱形电池和方形电池两种类型。
The lifespan of the graphene-assisted Li-ion batteries will also be twice as long as ordinary Li-ion batteries.
石墨烯锂离子电池的寿命还将是普通锂电池的两倍。
The formation, structure and components of electrode surface films had much effect on performance of Li-ion batteries.
锂离子电池电极表面膜的形成、结构和组成与电池性能有很大的关系。
Artificial neural networks technique is simple and understandable, it's a powerful tool to estimate Li-ion power batteries.
人工神经网络技术简单直观,是研究锂离子动力电池的有力工具。
The recent studies of specific energy , operating property and adapting to the environment of Li-ion batteries were reviewed.
综述了锂离子电池在比能量、工作特性以及环境适应能力等方面的研究进展。
The effects of hexamethyldisilazane(HMDS)to the stability of electrolyte and cycle performance of Li-ion battery were studied.
研究了六甲基二硅氮烷(HMDS)对电解液稳定性和锂离子电池循环性能的影响。
To that end, it has set up a joint venture with Samsung of South Korea to develop and produce Li-ion batteries for automotive use.
为了达到这样的目标,博世与韩国三星成立了合资公司来开发并生产汽车用锂电池。
However, Li-ion technology has a thermal stability problem, especially for larger cells that are a necessity for HEV applications.
然而,锂电池技术存在一个热稳定性的问题,特别是为是有必要为混合电动汽车的应用提供更大的电池单元。
A typical pack might have a stack of 96 batteries, developing a total voltage in excess of 400v for Li-ion batteries charged to 4.2v.
一个典型的电池组含有的电池可能有96个之多,就充电至4.2V的锂离子电池而言,总共能产生超过400v的电压。
More and more attentions are being paid on the capacity and safety of Li-ion battery for its wider use and higher performance demands.
随着锂离子电池应用范围拓宽和人们对锂离子电池高电压、高比能等性能的要求,锂离子电池的高容量和高安全受到关注。
With the use of electrical vehicle, higher and higher requirements for the Li-ion power batteries management system are brought forward.
电动汽车的使用对锂离子动力电池组管理系统提出了更高的要求。
In this paper Li-ion batteries' thermal field in confined battery module is analyzed using ANSYS, its exothermic question is researched.
基于此,本文应用ANSYS分析计算了密闭电池舱段内锂离子电池组的温度场,研究了锂离子电池的发热问题。
The spinel manganic acid lithium is promising to be cathodes for Li-ion battery, due to its relatively high energy density and low toxicity.
尖晶石型锰酸锂具有无毒、能量密度高等特点,是下一代锂离子电池最有前途的正极材料之一。
To solve the problem of uniformity of power Li-ion battery series, an equal charging scheme of managing circuit was proposed in this article.
为了解决动力锂电池组使用中的一致性问题,本文提出了一种均衡充电管理电路的实现方案。
The overcharge behavior of Li-ion batteries was studied from the rate of charge, the type of the anode materials and anode to cathode capacity ratio.
从充电倍率、负极材料的种类以及正负极材料的电容量匹配等方面,研究了锂离子电池的过充电行为。
Bosch, for example, calculates that a car fitted with a 40kw motor capable of speeds of up to 120kph would need a Li-ion battery with a capacity of 35kwh.
例如,博世算了这样一笔账。安装有40kW电机、时速能达到120kph的汽车需要的电池容量是35kwh。
From the aspects of organic solvents, lithium salts and additives, research progress of the non-aqueous organic electrolyte for Li-ion batteries is reviewed.
从有机溶剂、电解质锂盐、添加剂三个方面,论述了锂离子电池的电解液研究进展情况。
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