1) lifetime of Hydrogen-Nickel battery
氢镍电池寿命
2) battery life
电池寿命
1.
Type and conditions of abnormal failure, relativity between failure and battery life, and prevention and solution methods were reviewed.
根据大量现场试验重点阐述了造成电动车阀控铅酸蓄电池非正常失效的故障类型、发生条件、故障与电池寿命的相关性、预防和解决的措施,以防范电动自行车行业的风险。
2.
With the increasing use of low-voltage portable devices and increasing requirements of functionalities embedded into such devices, efficient power management techniques are needed for longer battery life.
便携式电子设备一般采用锂电池供电,随着低电压装置使用量的增加及其多功能化的增强,有效的电能管理技术成为这类设备延长电池寿命的有效方法。
3) battery lifetime
电池寿命
1.
A pulse supplied sensor ciruit extending battery lifetime;
一种延长电池寿命的脉冲供电传感器电路
4) Ni-MH battery
镍氢电池
1.
The Research of High Performance Ni-MH Battery and Its New Positive Materials;
高性能镍氢电池及其新型正极材料的研究
2.
The efficiency of a Ni-MH battery used in hybrid vehicles
混合动力汽车镍氢电池组的充放电效率分析
3.
56,one of choosed V-based solide solution hydrogen storage alloys, has been considered as promising candidates for negatie electrode materials of Ni-MH battery because of their higher reversible hydrogen storage capatites.
56由于其可逆吸放氢量大,作为镍氢电池负极材料有很大的应用前景。
5) nickel-hydrogen battery
镍氢电池
1.
The article has introduced the developing direction and the existing problem of the miner's lamp, has introduced the design of a new kind of energy-conserving miner's lamp based on nickel-hydrogen battery.
介绍了目前煤矿矿灯存在的问题及发展方向,研制了一种基于镍氢电池的节能型矿灯。
2.
This paper introduces the main features and correct use of the nickel-cadmium battery, nickel-hydrogen battery and lithium battery used in the total-station instrument for prolonging the service life of the battery.
介绍了全站仪使用的镍镉电池、镍氢电池、锂电池的主要特点及其正确使用方法,从而达到延长电池使用寿命的目的。
3.
This paper introduces the application, development, technical status quo and alloy property development of hydrogen storage alloy in nickel-hydrogen battery.
介绍储氢合金在镍氢电池方面的应用发展、技术现状以及合金性能的改进,提出未来储氢合金的发展方向:(1)以现有合金材料为基础,利用添加微量元素、改变合金组成比例,或者改变合金结构等方式改进合金特性;(2)开发新的合金。
6) MH/Ni battery
镍氢电池
1.
The objective was to develop a kind of metal hydride as negative electrode material with lower price and less Co, which met the requirement of MH/Ni battery production and was fit for industrialized production.
以研究出一种价格低廉能满足生产镍氢电池用户基本要求,并适合产业化生产的低钴廉价储氢合金负极材料为目的,把合金中钴的含量从10%降到3。
2.
The prediction of discharge capacity of MH/Ni battery is a main .
本文致力于混合动力电动汽车蓄电池能量管理系统中电池荷电状态的预测研究,深入讨论了镍氢电池的充放电特性、内阻特性等,开展了对镍氢电池充放电容量的预测和估计方法的研究。
补充资料:电池寿命
分子式:
CAS号:
性质:包括电池使用寿命,循环寿命及搁置寿命。规定条件下,蓄电池的有效寿命期限称为使用寿命(service life),如起动用铅酸蓄电池约为3~5年,固定型铅酸蓄电池约为15~20年。规定条件下,蓄电池的容量降至额定容量的80%(如固定型防酸式铅酸蓄电池)或50%(如小型阀控密封式铅酸蓄电池)之前的充放电循环次数称为循环寿命(cycle life)。固定型铅酸蓄电池的循环寿命应超过1000次,小型阀控密封式铅酸蓄电池应超过200次。激活后的蓄电池或原电池在特定条件下仍能保持规定电性能要求的贮存时间称为搁置寿命(shelf life;storage life),又称储存寿命。
CAS号:
性质:包括电池使用寿命,循环寿命及搁置寿命。规定条件下,蓄电池的有效寿命期限称为使用寿命(service life),如起动用铅酸蓄电池约为3~5年,固定型铅酸蓄电池约为15~20年。规定条件下,蓄电池的容量降至额定容量的80%(如固定型防酸式铅酸蓄电池)或50%(如小型阀控密封式铅酸蓄电池)之前的充放电循环次数称为循环寿命(cycle life)。固定型铅酸蓄电池的循环寿命应超过1000次,小型阀控密封式铅酸蓄电池应超过200次。激活后的蓄电池或原电池在特定条件下仍能保持规定电性能要求的贮存时间称为搁置寿命(shelf life;storage life),又称储存寿命。
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