储能蓄电池
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微网系统包含多种分布式能源,称为微电源,主要有风力发电、光伏电池、燃料电池、储能蓄电池等。
Micro-grid system consists of a variety of distributed energy , including the main wind turbine , photovoltaic cells , fuel cells , energy storage battery .
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为了提高蓄电池的运行效率和工作寿命,提出了模块化的储能蓄电池管理模型,保证了混合微网运行的可靠性。
In order to improve the efficiency and lifespan of batteries , a modular control mode for battery management is proposed to guarantee the reliability of hybrid microgrid .
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目的研究和开发电动汽车电池管理系统,实现铅酸储能蓄电池的剩余容量计量技术。
Aim To research and develop a battery management system ( BMS ) with the state of charge ( SOC ) indicator for electric vehicles ( EVs ) .
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该系统延长了太阳能光伏储能系统的蓄电池维护更换周期及使用寿命,提高了整体可靠性,优化了充放电方式。
The photovoltaic energy system increased the used period , and optimized the reliability and the way of charge .
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目前广泛使用的大电流电磁脉冲发生器有电容器组型、储能电感、蓄电池、旋转电机等,但是这些大电流发生器的能量密度普遍比较低,发生器的体积过于庞大。
Capacitor bank , energy storage inductors , electric rotating machinery and battery are widely used as high-current generator . However , these high-current generators ' energy density is relatively low and their sizes are too large .
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已经开发或者正在开发的混合动力汽车大部分使用的储能系统为蓄电池,混合动力汽车也存在着同电动汽车一样的问题,只是没有它严重而已。
Hybrid electric vehicle which is being developed or has been developed uses battery as its energy storage system , so there are the same problems as electric vehicle , which is not as serious as it .
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重点介绍了飞轮储能、超导储能、蓄电池储能和超级电容器储能在其中的应用,分析了各自的优缺点和发展前景。
The application of some energy storage technology are presented emphatically , such as flywheels storage , superconductive magnetic energy storage ( SMES ), battery storage and supercapacitor storage , their technical outlook , advantages and disadvantages is also discussed in the paper .