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机构地区:[1]河北建筑工程学院,河北张家口075000 [2]海军装备部,北京100841
出 处:《电源技术》2013年第12期2163-2164,2202,共3页Chinese Journal of Power Sources
基 金:住房和城乡建设部项目(2013-K1-5);河北省建工新产品试制费计划项目(2011-114)
摘 要:光伏发电以其取之不尽、用之不竭、绿色环保的特点而受到人们的关注,但是光伏发电具有受气候影响大,发电量不稳定,因此对电能的存储和转换提出了更高的要求。飞轮储能是一种重要的储能方式,以储能密度高、充电时间短、抗过充放电能力强、能量转换效率高、对环境要求较少等优点,在航天、交通、电力等方面展现出很好的应用前景。将飞轮储能技术应用到光伏发电中,可以减少光伏发电输出功率的随机性和波动性对电网和用户带来的影响,从而保证电力系统的运行稳定和用户的供电质量。Because of the shortage of energy and minerals, renewable power generation has become the focus of the study. But the PV generation is affected by climate and is unstable, therefore, more and more attention is paid to electrical energy storage and conversion. Flywheel energy storage is a kind of important energy storage, with its high energy density, short charging time, anti-overcharge and discharge capability, high energy conversion efficiency, environmental requirements on the advantages of fewer, show a good application prospect in aerospace, transportation, electric power etc. The flywheel energy storage technology was applied to the application of photovoltaic power generation, which could reduce the impact of PV output power and random fluctuations of power grid and the user, so as to ensure the quality of power supply of power system operation stable and user.
分 类 号:TM91[电气工程—电力电子与电力传动]
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