期刊文献+

无功动态补偿的光储发电系统并网控制方案 被引量:5

Grid-Connected Control Scheme of PV and Battery Generation System with Dynamic Reactive Power Compensation
下载PDF
导出
摘要 配电系统中的光储发电系统往往在用户侧直接并网,而用户侧的无功负荷变化会引起并网点的电压波动.为了实现并网点电压的稳定,提出了一种具有无功动态补偿能力的光储发电系统并网控制方案.该方案通过派克变换达到有功、无功功率独立控制的目的,一方面控制蓄电池充放电,在光照变化的情况下实现光储发电系统的稳定有功输出;另一方面利用逆变电路的无功补偿能力,控制调节其对无功负荷的供给,使得大电网提供的无功功率为恒定值,从而保证在无功负荷变化的情况下并网点的电压稳定.这种方案在不增加任何附加设备和复杂度的情况下,简单可靠地实现了光储发电系统的稳定有功功率输出和并网电压稳定的双重控制目标.理论研究和仿真测试均验证了新型并网控制方案的有效性和优越性. In distribution network,the photovoltaic(PV) and battery generation systems are directly connected to grid system at the user side,while the reactive load changes of the user side will cause voltage fluctuations at the grid-connected point. To solve this problem,a synchronization control program with the capacity of dynamic reactive power compensation for PV and battery generation system was proposed. In the program,the reactive and active power outputs were controlled independently through Park transformation. On one hand, the charging and discharging of the battery was controlled to achieve the stability of active power output of the PV and battery generation system in the case of light changes. On the other hand,the reactive power output was controlled to balance the dynamic requirement of reactive power,so as to ensure the voltage stability of the network in the case of reactive power load changes. The dual-control target of active power output stability and the voltage stability of the gridconnected point were easily and reliably achieved,without adding any additional equipment and complexity of the case. Theoretical studies and simulation tests both verified the effectiveness and superiority of the grid-connected control program.
出处 《天津大学学报(自然科学与工程技术版)》 EI CAS CSCD 北大核心 2013年第11期977-983,共7页 Journal of Tianjin University:Science and Technology
基金 国家高技术研究发展计划(863计划)资助项目(2011AA05A106) 国家自然科学基金资助项目(50977061) 国家电网公司2012科技项目支持(微电网应用模式与协调控制技术研究开发与应用)
关键词 光储发电系统 控制策略 无功动态补偿 无功负荷 并网控制 PV and battery generation system control scheme dynamic reactive power compensation reactive load synchronization control
  • 相关文献

参考文献8

  • 1Benner J P, Kazmerski L. Photovoltaics gaining greater visibility[J]. IEEE Spectrum, 1999, 36 (9) : 34-42.
  • 2Hill C A, Such M C, Chen Dongmei, et al. Battery energy storage for enabling integration of distributed so- lar power genetation[J]. IEEE Transactions on Smart Grid, 2012, 3(2): 850-857.
  • 3Su Weifu, Huang S J, Lin C E. Economic analysis for demand-side hybrid photovoltaic and battery energy stor- age system [J]. IEEE Transactions on Industry Applicati- ons, 2001, 37(1): 171-177.
  • 4Glavin M E, Chan P K W, Armstrong S, et al. A stand-alone photovoltaic supercapacitor battery hybrid energy storage systemiC]// International Power Elec- tronics and Motion Control Conference. Poznan, Poland, 2008: 1688-1695.
  • 5Soultanis N L, Hatziargyriou N D. Control issues of inverters in the formation of L. V. micro-grids[C]// Power Engineering Society General Meeting. Tampa, USA, 2007: 1-7.
  • 6李盛伟,李永丽,孙景钌,金强,李旭光,邓哲.光伏发电系统孤岛运行状态的故障特性分析[J].天津大学学报,2011,44(5):401-405. 被引量:7
  • 7Varma R K, Khadkikar V, Seethapathy R. Nighttime application of PV solar farm as STATCOM to regulate grid voltage [J]. IEEE Transactions on Energy Conver- sion, 2009, 24(4): 983-985.
  • 8汪海宁,苏建徽,丁明,张国荣.光伏并网功率调节系统[J].中国电机工程学报,2007,27(2):75-79. 被引量:116

二级参考文献25

  • 1罗伟胜.一种无功与谐波的综合补偿方案[J].电网技术,2004,28(14):90-92. 被引量:22
  • 2罗安,付青,王丽娜,Phil Mellor.变电站谐波抑制与无功补偿的大功率混合型电力滤波器(英文)[J].中国电机工程学报,2004,24(9):115-123. 被引量:68
  • 3李红雨,吴隆辉,卓放,雷万钧,张鹏博,王兆安.多重化大容量有源电力滤波器的主电路结构研究[J].电网技术,2004,28(23):12-16. 被引量:22
  • 4Ho B M T,Chung H S-H. An integrated inverter with maximum power tracking for grid-connected PV sys- tems [J]. IEEE Transactions on Power Electronics, 2005,20 (4) :953-962.
  • 5Katiraei F, Iravani M R, Lehn P W. Micro-grid autonomous operation during and subsequent to islanding process[J]. IEEE Transactions on Power Delivery,2005,20 (1) :248-257.
  • 6Valenciaga F,Puleston P F. Supervisor control for a stand-alone hybrid generation system using wind and photovoltaic energy [J]. IEEE Transactions on Energy Conversion, 2005,20 (2) :398-405.
  • 7Robert L. Integration of Distributed Energy Resources --The CERTS MicroGrid Concept [R]. California En- ergy Commission Consultant Report,2002.
  • 8Katiraei F,Iravani M R. Power management strategies for a microgrid with multiple distributed genera- tion[J]. IEEE Transactions on Power Systems,2006, 21 (4) :1821-1831.
  • 9Tse K K,Ho B M T,Chung H S-H. A comparative study of maximum-power-point trackers for photo- voltaic panels using switching-frequency modulation scheme [J]. IEEE Transactions on Industrial Electron- ics,2004,51 (2) :410-418.
  • 10Woyte A, Van den Keybus J, Belmans R, et al. Grid-connected photovoltaics in the urban environment-an experimental approach to system optimization[C]. Power Electronics and Variable Speed Drives, 2000 Eighth International Conference, London, UK, 2000.

共引文献121

同被引文献78

引证文献5

二级引证文献11

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部