In general, it is difficult to obtain a large number of test data about battery cycle life.
一般情况下,很难获得为数众多的蓄电池循环寿命测试数据。
The use of the additives can increase the battery cycle life, charge acceptance, surface area of negative active mass and stabilization of its structure.
使用负极板添加剂可以增加蓄电池寿命,提高充电接受能力,增大负极活性物质表面积并稳定其结构。
As additives of electrode materials and electrolytes, the carbon can improve the capacity and cycle life of battery.
碳作为正负极活性物质和电解液的添加剂能提高蓄电池的容量和循环寿命。
The experimental results showed this electrode can improve reversibility of the battery and increase its charge discharge capacity, cycle life.
实验结果表明,使用这种电极可使电池的可逆性明显改善,提高其循环寿命和充放电容量。
Phosphoric acid as an electrolyte additive for VRLA battery was studied by testing the battery initial capacity and cycle life.
对磷酸作为VRLA电池电解液添加剂进行了初期容量和循环寿命试验研究。
The initial capacity of battery was increased, and the deep cycle life was shortened greatly because of over deep discharging.
电池经过深放电有利于提高电池的初期容量但大大地缩短了电池的深循环寿命。
Especially, the battery with electrolyte saturated by zinc oxide and indium oxide shows excellent charging-discharging performance and charge retention capacity as well as its cycle life.
在电解液中同时添加氧化铟和氧化锌可提高电池的充放电效率和荷电保持能力,电池的循环寿命也得到提高。
It was shown that the particle size distribution of lead powder played an important role in plate porosity, initial capacity and cycle life of the battery.
结果表明:铅粉粒径对极板的孔隙度、成品电池的初始容量、充电接受性和循环寿命有较大影响。
The deep cycle life of battery made from Pb-Ca-Sn-Al alloy was increased and reached 435 cycles after improvement.
经过改进,提高了铅钙锡铝合金电池的深循环寿命,循环寿命达到了435次。
It was found that the fast cycle life of battery was limited by negative plate, but not by positive plate, and deep cycle life was mainly limited by positive plate.
通过铅膏配方试验,发现制约电池快速寿命的是负极板而不是正极板,制约深循环寿命的主要是正极板。
The influence of the charge mode on the cycle life of lead acid battery was studied.
研究了充电方式对铅酸蓄电池寿命的影响。
The cycle life at 70% DOD of the VRLA battery made by the optimum paste formula is up to 612 cycles.
按照上述最佳配方生产的阀控密封式(VRLA)蓄电池在70%的放电深度下的循环寿命达到了612次。
The performance of lead-acid battery using 4bs as the precursor of the positive plates was introduced. The principle of 4bs improving the cycle life of lead-acid battery was also discussed.
介绍了近年来采用4BS作为正极生极板活性物质所制备的铅酸电池的性能,并评述了4bs延长铅酸电池循环寿命的原理。
MH-Ni battery; inner pressure; mathematical model; cycle life;
镍氢电池;内压;数学模型;循环寿命;
Li battery have the good features of small size, high power density, no memory effect, long cycle life, high voltage and low self-discharge.
锂电池具有体积小、能量密度高、无记忆效应、循环寿命高、高电压电池和自放电率低等优点。
Active equalization can effectively extend cycle life of battery packs.
主动均衡充电可以有效延长电池组的寿命。
The negative active material may provide a rechargeable lithium battery having high capacity and excellent cycle-life and cell efficiency.
该负极活性材料可提供具有高容量和优良的循环寿命以及电池效率的可充电锂电池。
Flywheel battery is a novel energy storage device which has many advantages: high specific energy and specific power, volume small, fast charge, long cycle life, non-pollution and so on.
飞轮电池是一种新型储能装置,具有比能量高、比功率大、体积小、充电快、寿命长、无任何废气废料污染等特点。
The leaded alloy improves the corrosion resistance, mechanical property and electrochemical property of a slab lattice of a solar accumulator lead-acid battery and prolongs the cycle life thereof.
所述铅合金提高了太阳能储能铅酸蓄电池的板栅的耐腐蚀性、机械性能、电化学性能和增加循环寿命。
The leaded alloy improves the corrosion resistance, mechanical property and electrochemical property of a slab lattice of a solar accumulator lead-acid battery and prolongs the cycle life thereof.
所述铅合金提高了太阳能储能铅酸蓄电池的板栅的耐腐蚀性、机械性能、电化学性能和增加循环寿命。
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