靠铅酸电池驱动前进的特斯拉年代。
所有铅酸电池的近90%被回收。
使用寿命长,为铅酸电池的一倍。
Long design service life, double the life of lead acid batteries.
分析了中国铅酸电池系统中铅的流动。
The lead flow analysis for the lead-acid battery system in China is made.
一种新颖的密封铅酸电池充电器的设计与应用。
Design and application of a kind of new sealed lead-acid battery charger.
阀调节铅酸电池?。
相对论模拟模型预测的铅酸电池产生的电压相当精确。
The relativistic simulations predicted the voltages measured in real lead-acid batteries with great precision.
其他公司也在寻找方法,给铅酸电池一段新的生命。
Other companies are also looking at ways to give the lead-acid battery a new lease of life.
阐述了铅酸电池泡沫铅板栅材料的制备方法及研究进展。
The preparation methods and research progress in lead foam grid materials for lead acid batteries were reviewed.
结果表明,此模型较好地反映了铅酸电池充放电动态过程。
It is shown by the results that the model reflects moderately the dynamic process of electric charging and discharging of Pb-acid battery.
一磅汽油的能量约是铅酸电池的35倍,锂离子电池的6倍。
A pound of gasoline holds about 35 times more energy than a pound of lead-acid batteries and about six times more than lithium-ion batteries.
一个典型的铅酸电池,含有60%至80%的回收铅和塑料。
A typical lead-acid battery contains 60 to 80 percent recycled lead and plastic.
该车采用高性能水平铅酸电池,并且对电池箱进行了专门设计。
This vehicle chooses high performance horizon lead-acid battery and the battery box is designed specially.
在对铅酸电池充放电特性进行分析的基础上,给出了铅酸电池充放电模型。
On the basis of analyzing the characteristics of electric charging and discharging of Pb-acid battery, the model of electric charging and discharging of Pb-acid battery is made.
切拉网法可以降低对环境的污染,节省能源,提高生产效率和铅酸电池的性能。
The stretch method could lower the environmental pollution, save the energy, improve the production efficiency and the performance of the lead-acid battery.
能源:铅酸电池垂垂老矣,但一经现代技术的点拨,这个150年前的电池技术重现生机。
Energy: There is life in a 150-year-old battery technology yet, it seems, as venerable lead-acid batteries are given a modern overhaul.
Pyykko博士和他的同事们作了两个版本的电脑模型,来观察铅酸电池是怎么工作的。
Dr Pyykko and his colleagues made two versions of a computer model of how lead-acid batteries work.
讨论了传统的均衡充电不适合阀控式铅酸电池,提出了电池组主动均衡的方法。
The traditional equalizing charge was unsuitable to VRLA battery and a battery active equalization method was proposed.
以瑞典铅酸电池系统为对象,计算了其中铅流的各项指标,并进行了必要的分析。
The lead flow in Swedish lead-acid battery system was analyzed as a case study, including the calculation of indexes of lead flow.
如果这些电池可以满足如此需求的用户,有少量碳的铅酸电池可能导致一个新的收费。
If they can satisfy such demanding users, lead-acid batteries with a dash of carbon could be ready to lead a new charge.
废铅酸蓄电池属于危险固废,我省的废铅酸电池回收和再生铅主要集中在阜阳地区。
Deposed lead-acid batteries are belonging to dangerous solid waste, recovery of deposed lead-acid batteries and regenerative lead production in Anhui Province are mainly focused in Fuyang.
铅酸电池的荷电状态(SOC)的测量和估计,对电动汽车的电池管理系统极为重要。
It was very importance for the battery management system in electric vehicles to measure and estimate the state of charge (SOC) of lead-acid batteries.
为了验证模型的可行性,对铅酸电池进行了充放电实验,并对实验和仿真结果作了比较。
Electric charging and discharging tests of Pb-acid battery are conducted and the experiments and emulation results are compared in order to verify the feasibility of the model.
制造成本比现有双极型极板铅酸电池下降30% - 50%,接近普通铅酸电池水平。
The manufacture cost which approaches normal lead-acid battery level, is reduced by 30%-50% compared with the existing dual-pole polar plate lead-acid battery.
本实用新型将超 级电容和铅酸电池这两种存储电能的载体有机结合,可以实现节能环 保。
This utility model combines the two kinds of current carriers: the super-capacitor and the plumbic acid battery group to realize energy saving and environment protection.
在本研究中,以经过浮选处理的方铅矿精矿为原料,采用湿法直接制备铅酸电池用材料硫酸铅。
The production cost of PbSO_4 with lead oxide is expensive. It is researched to obtaining directly PbSO_4 used as lead-acid batteries by processing the flotation-galena concentrate.
同时给出了一种简单实用、工作稳定且性能可靠的12V密封铅酸电池双电平浮充充电器的实际应用电路。
At the same time, the application circuit of12V sealed lead-Acid battery dual-level float charger, which is simple, feasible and stable is produced.
铅酸电池是UPS不间断电源系统重要组成部分,电池性能的优劣直接影响整个供电系统的安全性和可靠性。
Lead acid battery is an important part of the Uninterruptable power system UPS, the battery performance effect directly the safety and reliability of the whole power supply system.
采用可充电高能锂电池(或背负式铅酸电池)作为动力源,充电一次可连续作业6~8小时,充电时间为2~3小时。
Use of rechargeable lithium battery-energy (or with lead-acid batteries) as a power source, charging once and it may contiguously work 6 ~ 8 hours charging time is 2-3 hours.
采用可充电高能锂电池(或背负式铅酸电池)作为动力源,充电一次可连续作业6~8小时,充电时间为2~3小时。
Use of rechargeable lithium battery-energy (or with lead-acid batteries) as a power source, charging once and it may contiguously work 6 ~ 8 hours charging time is 2-3 hours.
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