中国电机工程学报
中國電機工程學報
중국전궤공정학보
ZHONGGUO DIANJI GONGCHENG XUEBAO
2015年
12期
2980-2988
,共9页
何智鹏%许建中%苑宾%赵成勇%彭茂兰
何智鵬%許建中%苑賓%趙成勇%彭茂蘭
하지붕%허건중%원빈%조성용%팽무란
模块化多电平换流器%电容电压均衡%质因子分解法%混合排序法%优化效率
模塊化多電平換流器%電容電壓均衡%質因子分解法%混閤排序法%優化效率
모괴화다전평환류기%전용전압균형%질인자분해법%혼합배서법%우화효솔
modular multilevel converter%equalization of sub-module voltage%prime factorization method%mixed sorting method%optimizing efficiency
子模块电容电压均衡控制策略是保证模块化多电平换流器(modular multilevel converter,MMC)正常运行的重要环节。对于每相桥臂含有大规模数量子模块的模块化多电平换流器高压直流输电(modular multilevel converter based high voltage direct current,MMC-HVDC)系统,减小排序复杂度对 MMC-HVDC 工程控制器设计难度以及硬件需求的降低具有重要意义。该文基于质因子分解法提出一种优化的混合排序法,通过引入希尔排序算法大幅度降低排序次数,从而降低仿真时间,降低了对系统硬件的要求。推导适用于MMC-HVDC系统的希尔排序步长的时间复杂度,给出基于混合排序法的排序次数计算公式,分析分组层数对系统降低频率的影响,得到分组层数与混合排序法优化效率成反比例关系的结论。最后在PSCAD/EMTDC中搭建两端401电平 MMC-HVDC 模型进行仿真,仿真结果验证了混合排序法及分组层数对优化效率影响的分析的有效性与正确性。
子模塊電容電壓均衡控製策略是保證模塊化多電平換流器(modular multilevel converter,MMC)正常運行的重要環節。對于每相橋臂含有大規模數量子模塊的模塊化多電平換流器高壓直流輸電(modular multilevel converter based high voltage direct current,MMC-HVDC)繫統,減小排序複雜度對 MMC-HVDC 工程控製器設計難度以及硬件需求的降低具有重要意義。該文基于質因子分解法提齣一種優化的混閤排序法,通過引入希爾排序算法大幅度降低排序次數,從而降低倣真時間,降低瞭對繫統硬件的要求。推導適用于MMC-HVDC繫統的希爾排序步長的時間複雜度,給齣基于混閤排序法的排序次數計算公式,分析分組層數對繫統降低頻率的影響,得到分組層數與混閤排序法優化效率成反比例關繫的結論。最後在PSCAD/EMTDC中搭建兩耑401電平 MMC-HVDC 模型進行倣真,倣真結果驗證瞭混閤排序法及分組層數對優化效率影響的分析的有效性與正確性。
자모괴전용전압균형공제책략시보증모괴화다전평환류기(modular multilevel converter,MMC)정상운행적중요배절。대우매상교비함유대규모수양자모괴적모괴화다전평환류기고압직류수전(modular multilevel converter based high voltage direct current,MMC-HVDC)계통,감소배서복잡도대 MMC-HVDC 공정공제기설계난도이급경건수구적강저구유중요의의。해문기우질인자분해법제출일충우화적혼합배서법,통과인입희이배서산법대폭도강저배서차수,종이강저방진시간,강저료대계통경건적요구。추도괄용우MMC-HVDC계통적희이배서보장적시간복잡도,급출기우혼합배서법적배서차수계산공식,분석분조층수대계통강저빈솔적영향,득도분조층수여혼합배서법우화효솔성반비례관계적결론。최후재PSCAD/EMTDC중탑건량단401전평 MMC-HVDC 모형진행방진,방진결과험증료혼합배서법급분조층수대우화효솔영향적분석적유효성여정학성。
Equalization of sub-module voltage is the important guarantee for the normal operation of the modular multilevel converter (MMC). For the MMC based high voltage direct current (MMC-HVDC) with large amount of submodules per arm, it is of great significance to cut down the complexity of sorting process for the reduction of the design of controllers and hardware requirement of MMC-HVDC projects. An optimized mixed sorting method was presented based on the prime factorization method, the sort number was substantially reduced owing to the introduction of Shell sorting algorithm. Thus the sort time and the requirement for the hardware of the system are reduced. Time complexity of the Shell algorithm applied to the MMC-HVDC was deduced and the calculation formula was proposed for the sort number of the mixed sorting algorithm. Impacts on the reduction of the frequency by the grouping layers were analyzed. Conclusion that the optimizing efficiency of the mixed sorting method is in inversely-proportional relationship with the grouping layers is acquired. Finally, simulation was carried out based on the 401-level two-terminal MMC-HVDC system in PSCAD/EMTDC. The efficiency and correctness of the mixed sorting method and the impact of the grouping layers on the optimizing efficiency are proved.