2) Ni-Zn battery
锌镍电池
1.
Self-discharge performance of sealed Ni-Zn battery;
密封锌镍电池的自放电性能
2.
Influence of KOH concentration on the performance of sealed Ni-Zn battery;
KOH浓度对密封锌镍电池性能的影响
3.
Influence of different electrolyte additives on sealed Ni-Zn battery;
电解液添加剂对密封锌镍电池的影响
3) Zn-Ni battery
锌镍电池
1.
Studies by XRD on discharge products of negative electrode in Zn-Ni battery;
锌镍电池负极放电产物X射线衍射研究
2.
Studies on negative electrode of Zn-Ni battery by means of XRD;
锌镍电池负极X射线衍射研究
3.
In recent years, as a cathode active material of Zn-Ni battery and Ni-MH battery, nickel oxyhydroxide has gradually become a new research issue in the area of the battery materials.
羟基氧化镍作为锌镍电池和MH-Ni电池的正极活性物质已经逐步成为电池材料领域一个新的研究热点。
4) Zn/Ni battery
锌镍电池
1.
Cyclic voltammetry performance of negative electrode in Zn/Ni battery;
锌镍电池负极的循环伏安行为
2.
Research and development of Zn/Ni battery for electrical bicycle and HEV application were introduced in this paper.
阐述了可充锌镍电池的研究和开发 ,该系列电池主要应用于电动自行车、电动摩托车及混合电动车。
5) Ni/Zn battery
锌镍电池
1.
Preparation of calcium zincate as negative electrode material for Ni/Zn battery by chemo-synthesis method;
化学合成法制备锌镍电池负极材料锌酸钙
2.
The history of chemical power sources was reviewed in this paper, and it was emphasis on investigations of secondary Ni/Zn battery, including its work principle, mostly existent disadvantages and relevant resolvents of them, and its progress and future applied foreground.
本论文简要回顾了化学电源的发展历史,重点阐述了二次锌镍电池的研究,包括锌镍电池的工作原理、主要存在的问题及相关解决途径、发展状况和未来的应用前景。
3.
Effects of the zinc anode additives and electrolyte inorganic additives on electrochemical performance and cycle life of Ni/Zn battery were studied by charge-discharge test.
本论文简要回顾了化学电源和锌镍电池的发展历史,重点阐述了二次锌镍电池的特点、主要存在的问题及相关解决途径、发展状况和未来的市场前景。
6) Zinc-Nickel Battery
锌镍电池
1.
Progress in alkaline polymer electrolyte for zinc-nickel battery
锌镍电池用碱性聚合物电解质的研究进展
2.
Zinc-nickel battery,which uses ZnO/Zn as the negative electrode material and nickel hydrate as the positive electrode material,has the advantages of high working voltage,high energy density,and high power density,wide work temperature,free of environment pollution in produce and application,etc.
锌镍电池以价格低廉的ZnO/Zn为负极材料,以氢氧化镍为正极材料,其具有工作电压高、能量密度高、功率密度高和工作温度宽等优点,且电池的生产和使用过程对环境不产生污染,是一种实用的新型高性能绿色动力电池。
补充资料:锌/镍蓄电池
分子式:
CAS号:
性质:以羟基氧化镍为正极活性物质,活性金属锌粉为负极活性物质,含有或不含少量氢氧化锂的氢氧化钾水溶液为电解质的一种蓄电池。比能量约为55~80W·h/kg,比功率约为100W/kg,可以在~20~+60℃工作,成本较锌/银蓄电池低。在一些应用领域如水雷、军用电子系统、小型仪器工具等可代替锌/银蓄电池。大容量电池也是电动车辆的一种候选电源。
CAS号:
性质:以羟基氧化镍为正极活性物质,活性金属锌粉为负极活性物质,含有或不含少量氢氧化锂的氢氧化钾水溶液为电解质的一种蓄电池。比能量约为55~80W·h/kg,比功率约为100W/kg,可以在~20~+60℃工作,成本较锌/银蓄电池低。在一些应用领域如水雷、军用电子系统、小型仪器工具等可代替锌/银蓄电池。大容量电池也是电动车辆的一种候选电源。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条