电测与仪表
電測與儀錶
전측여의표
ELECTRICAL MEASUREMENT & INSTRUMENTATION
2015年
14期
49-54
,共6页
光伏出力%电池%超级电容器%低通滤波%阀值判断%滑动平均
光伏齣力%電池%超級電容器%低通濾波%閥值判斷%滑動平均
광복출력%전지%초급전용기%저통려파%벌치판단%활동평균
photovoltaic output power%battery%super capacitor%low pass filter%threshold judgment%moving average
针对由电池和超级电容器构成的混合储能系统,设计了一种平抑光伏出力波动的储能控制策略。基于含阀值判断的低通滤波算法制定储能系统总充放电功率,在平抑光伏出力波动的同时避免对储能系统的过渡调控。综合考虑储能介质充放电状态,基于滑动平均原理制定储能介质的功率分配策略,以充分发挥不同储能介质的优势,优化储能系统的整体运行性能。仿真分析验证了所设计控制策略的有效性,储能系统可以较小的调控代价完成对光伏出力波动的平抑,且超级电容器平抑功率波动的快变分量,有效降低了储能电池的充放电次数。研究结果对混合储能系统在平抑光伏出力波动中的应用提供了理论参考。
針對由電池和超級電容器構成的混閤儲能繫統,設計瞭一種平抑光伏齣力波動的儲能控製策略。基于含閥值判斷的低通濾波算法製定儲能繫統總充放電功率,在平抑光伏齣力波動的同時避免對儲能繫統的過渡調控。綜閤攷慮儲能介質充放電狀態,基于滑動平均原理製定儲能介質的功率分配策略,以充分髮揮不同儲能介質的優勢,優化儲能繫統的整體運行性能。倣真分析驗證瞭所設計控製策略的有效性,儲能繫統可以較小的調控代價完成對光伏齣力波動的平抑,且超級電容器平抑功率波動的快變分量,有效降低瞭儲能電池的充放電次數。研究結果對混閤儲能繫統在平抑光伏齣力波動中的應用提供瞭理論參攷。
침대유전지화초급전용기구성적혼합저능계통,설계료일충평억광복출력파동적저능공제책략。기우함벌치판단적저통려파산법제정저능계통총충방전공솔,재평억광복출력파동적동시피면대저능계통적과도조공。종합고필저능개질충방전상태,기우활동평균원리제정저능개질적공솔분배책략,이충분발휘불동저능개질적우세,우화저능계통적정체운행성능。방진분석험증료소설계공제책략적유효성,저능계통가이교소적조공대개완성대광복출력파동적평억,차초급전용기평억공솔파동적쾌변분량,유효강저료저능전지적충방전차수。연구결과대혼합저능계통재평억광복출력파동중적응용제공료이론삼고。
In view of the hybrid energy storage system composed of batteries and super capacitors, an energy storage control strategy to smooth photovoltaic output power fluctuations is designed.The low-pass filtering algorithm with threshold judgment is used to design the total charging power of energy storage system, and avoid the unnecessary con-trol to smooth photovoltaic output power fluctuations.Considering the charging state of energy storage medium, the principle of moving average is used to design the power allocation strategy of storage medium, thus making full use of different storage medium and optimizing the operation of hybrid energy storage system.The validity of the control strat-egy designed is verified through simulation analysis, and the energy storage control system can smooth photovoltaic output power fluctuations at the lowest cost.The super-capacitor smoothes the fast varying component of power fluctua-tions, and reduces the charging number of the storage battery.Research results provide theoretical reference for the application of hybrid energy storage systems in smoothing photovoltaic output power fluctuations.