中国电机工程学报
中國電機工程學報
중국전궤공정학보
ZHONGGUO DIANJI GONGCHENG XUEBAO
2014年
27期
4568-4575
,共8页
武伟%谢少军%张曌%许津铭
武偉%謝少軍%張曌%許津銘
무위%사소군%장조%허진명
储能系统%超级电容%双向DC/DC变换器%模块多电平变换器%电压均衡%能量管理%控制策略
儲能繫統%超級電容%雙嚮DC/DC變換器%模塊多電平變換器%電壓均衡%能量管理%控製策略
저능계통%초급전용%쌍향DC/DC변환기%모괴다전평변환기%전압균형%능량관리%공제책략
energy storage system%ultra-capacitors%bidirectional DC/DC converter%modular multilevel converter (MMC)%voltage equalization%energy management%control strategies
研究一种基于多模块多电平双向DC-DC变换器的超级电容储能系统,该系统可有助于减小超级电容单体电压低与应用场合电压高间的矛盾。超级电容组间的均压控制是该系统稳定运行的关键之一。对超级电容组的均压控制和储能系统能量管理策略进行分析和设计。利用双向变换器的小信号模型分析超级电容储能系统电流控制与超级电容组间均压控制的关系,设计多模块多电平双向DC-DC变换器的双闭环控制策略,在稳定控制网侧电感电流的同时实现超级电容组间电压均衡的解耦控制。进一步,根据母线电压变化及超级电容荷电水平(state of charge,SOC)提出储能系统能量控制策略。系统仿真和实验验证了所提出的基于MMC双向变换器的超级电容储能系统控制策略的有效性。
研究一種基于多模塊多電平雙嚮DC-DC變換器的超級電容儲能繫統,該繫統可有助于減小超級電容單體電壓低與應用場閤電壓高間的矛盾。超級電容組間的均壓控製是該繫統穩定運行的關鍵之一。對超級電容組的均壓控製和儲能繫統能量管理策略進行分析和設計。利用雙嚮變換器的小信號模型分析超級電容儲能繫統電流控製與超級電容組間均壓控製的關繫,設計多模塊多電平雙嚮DC-DC變換器的雙閉環控製策略,在穩定控製網側電感電流的同時實現超級電容組間電壓均衡的解耦控製。進一步,根據母線電壓變化及超級電容荷電水平(state of charge,SOC)提齣儲能繫統能量控製策略。繫統倣真和實驗驗證瞭所提齣的基于MMC雙嚮變換器的超級電容儲能繫統控製策略的有效性。
연구일충기우다모괴다전평쌍향DC-DC변환기적초급전용저능계통,해계통가유조우감소초급전용단체전압저여응용장합전압고간적모순。초급전용조간적균압공제시해계통은정운행적관건지일。대초급전용조적균압공제화저능계통능량관리책략진행분석화설계。이용쌍향변환기적소신호모형분석초급전용저능계통전류공제여초급전용조간균압공제적관계,설계다모괴다전평쌍향DC-DC변환기적쌍폐배공제책략,재은정공제망측전감전류적동시실현초급전용조간전압균형적해우공제。진일보,근거모선전압변화급초급전용하전수평(state of charge,SOC)제출저능계통능량공제책략。계통방진화실험험증료소제출적기우MMC쌍향변환기적초급전용저능계통공제책략적유효성。
A novel energy storage system (ESS) with ultra-capacitors, which based on modular multilevel bidirectional DC/DC converter, was discussed. The inconsonance of low monomer voltage rating of the ultra-capacitors and the high voltage applications can be mitigated in this system. The voltage equalization of ultra-capacitors is critical for stable operation of the system. The inherent relationships between the system current control and the ultra-capacitors voltage sharing were analyzed and a double closed-loop control strategy for the MMC-BDC based ESS was proposed, which decouples the system current control and the ultra-capacitors voltage sharing control. Furthermore, the energy management strategy which is based on the DC bus voltage and the state-of-charge (SOC) of the ultra-capacitors was also proposed. The effectiveness of the proposed control strategies for the MMC-BDC based ultra-capacitors ESS was validated with the simulations and the experimental results.
