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锂离子电容器(LIC)作为一种新型电化学储能技术,具有超高功率密度、较高能量密度、长寿命、高安全、全寿命周期运行成本低、温度范围宽、易回收再利用等特点,成本介于锂离子电池(LIB)和双电层电容器(EDLC)之间,具有巨大的市场应用价值和竞争优势。本文阐述了锂离子电容器结构、工作原理、技术特点以及发展历程,基于锂离子电容器作为功率型储能器件既可以单独使用,同时也可以与其他储能器件(如锂离子电池、燃料电池、铅蓄电池等)组成混合储能系统使用,本文重点分析了锂离子在微电网、电力调频、风电变桨系统、城市轨道交通、新能源汽车等新能源领域的应用,最后对锂离子电容器未来技术发展及应用前景做了展望。 相似文献
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The mechanism of the improvement of the cycling stability of the La-Mg-Ni-Co based hydrogen storage alloy electrode was systematically investigated. The results show that the cell volume expansion upon hydrogenation is obviously decreased after the partial substitution of AI for Ni. Therefore a decrease in the pulverization of the alloy particles is obtained, which leads to the decrease of the contact area of the fresh alloy surface with alkaline electrolyte and the increase of the charge/discharge efficiency. Moreover, the occurrence of Al in the alloy can create a dense Al oxide film on the surface of the alloy during charge/discharge cycling. This dense oxide film can prevent further oxidation of the active components in the alloy, which is believed to be the roust important factor responsible for the improvement of the cycling stability of the La-Mg-Ni-Mn-Co-Al type alloy electrodes. 相似文献
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