引用本文: | 陈奎,周东,孙建坡.基于序分量法的D-STATCOM直接功率控制策略研究[J].电力系统保护与控制,2016,44(9):43-49.[点击复制] |
CHEN Kui,ZHOU Dong,SUN Jianpo.Study on predictive direct power control of D-STATCOM based on the method of sequence component[J].Power System Protection and Control,2016,44(9):43-49[点击复制] |
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摘要: |
将基于序分量法的P-DPC引入到配电网静止同步补偿器(D-STATCOM)的控制研究中,来解决传统预测直接功率控制策略只可控制补偿负荷无功功率的问题。将电网电压不对称因素考虑在内,利用瞬时对称分量法对各个采集电气量进行序分解,构建正、负序等效电路。无功和三相不平衡负荷补偿时,根据序网络等效电路分别推得正、负序功率预测模型。基于正序功率预测模型的P-DPC算法控制D-STATCOM补偿负荷无功,而基于负序功率预测模型的D-DPC算法控制补偿负荷所需负序电流。两种算法相互牵制,严格控制了D-STATCOM的输出电流,消除了装置在电网电压不对称时可能产生的过流威胁,实现了负荷无功和平衡化补偿。仿真结果表明,不论电网电压对称与否,该控制策略都能良好地补偿负荷的无功和负序电流,确保电源侧三相电流平衡且单位功率因数运行。 |
关键词: 预测直接功率控制 瞬时对称分量法 电压不对称 负荷平衡化补偿 叠加 |
DOI:10.7667/PSPC151026 |
投稿时间:2015-06-18修订日期:2016-03-24 |
基金项目: |
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Study on predictive direct power control of D-STATCOM based on the method of sequence component |
CHEN Kui,ZHOU Dong,SUN Jianpo |
(China University of Mining and Technology, Xuzhou 221008, China) |
Abstract: |
Predictive direct power control (P-DPC) strategy based on sequence component method is introduced to control static synchronous compensator of distribution network, so as to solve the incapability of compensation of three-phase unbalanced load current. Taking the influence of negative voltage into account, first of all, instantaneous symmetrical component method is applied to every electrical measurements to construct sequence equivalent circuit. Then positive and negative sequence power predictive models can be deduced. The P-DPC based on positive power predictive model is used in D-STATCOM to compensate reactive power; and the negative predictive model is adopted to realize the compensation of negative load current. Two different control strategies are combined to regulate the output current of D-STATCOM strictly, as a result, the threat of converter overcurrent caused by negative voltage is eliminated and the compensation of reactive power and negative load current is achieved. Simulation results verify the validity of the proposed control strategy even under unbalance voltage. |
Key words: P-DPC instantaneous symmetrical component asymmetrical voltage load balancing compensation principle of superposition |