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超级电容器蓄电池混合储能独立光伏系统研究 被引量:81

STUDY ON A STAND-ALONE PV SYSTEM WITH BATTERY/ULTRACAPACITOR HYBRID ENERGY STORAGE
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摘要 建立了混合储能系统的数学模型,对系统性能的提升进行了定量分析。提出了一种无源式并联储能方案,并应用于独立光伏系统中,仿真和实验结果表明,在光伏系统的发电功率和负载功率脉动的情况下,蓄电池的充放电电流比较平滑。合理配置超级电容器组的容量,可以减少由于日照量变化所导致的蓄电池充放电小循环次数。对解决光伏等可再生能源系统中蓄电池储能的问题,具有现实意义。 Mathematical model of the hybrid was set up to analyze the performance improvement quantificationally. A passive hybrid structure was put forward and utilized in a stand-alone system. Simulation and experiment show that the current of the battery is quite smooth under the condition of PV power and varying quickly load power, The small dis charge and recharge cycles due to irradiation variation can be reduced greatly through proper ultraeapaeitor bank configuration. Something valuable and practical can be attained from this paper to solve the energy storage problem in stand-alone PV system and other regeneration energy systems.
作者 唐西胜 武鑫 齐智平
机构地区 中国科学院电工所
出处 《太阳能学报》 EI CAS CSCD 北大核心 2007年第2期178-183,共6页 Acta Energiae Solaris Sinica
基金 国家高科技研究发展计划(863计划)(2002AA516020)
关键词 独立光伏系统 蓄电池 超级电容器 混合储能 stand-alone PV system battery uhraeaoaeitor hybrid energy storage
分类号 TK51 [动力工程及工程热物理—热能工程]
作者简介 联系人E-mail:tangxi@mail.iee.ac.cn
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参考文献13

  • 1Barker P P.Ultracapacitors for use in power quality and distributed resource applications[A].Power Engineering Society Summer Meeting,2002 IEEE[C],2002,1:316-320.
  • 2Pay S,Baghzouz Y.Effectiveness of battery-supercapacitor combination in electric vehicles[A].IEEE Bologna Power Tech Conference[C],2003.
  • 3Schupbach R M,Balda J C,Zolot M,et al.Design methodology of a combined battery-ultracapacitor energy storage unit for vehicle power management[A].Power Electronics Specialist Conference[C],2003,1:88-93.
  • 4Monai T,Takano I,Nishikawa H,et al.A collaborative operation method between new energy-type dispersed power supply and EDLC[A].Energy Conversion,IEEE Trans[C],2004,19(3):590-598.
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  • 7Palma L,Enjeti P,Howze J W.An approach to improve battery run-time in mobile applications with supercapacitors[A].IEEE Conf 2003[C],2003,918-923.
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同被引文献660

引证文献81

二级引证文献1033

太阳能学报
2007年 第2期

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