含风电场的配电网无功优化策略研究

李闯<sup>1</sup>; 陈民铀<sup>1</sup>; 付昂<sup>2</sup>; 李俊杰<sup>2</sup>; 郑永伟<sup>1</sup>

引用本文:	李闯,陈民铀,付昂,等.含风电场的配电网无功优化策略研究[J].电力系统保护与控制,2013,41(9):100-105.
	LI Chuang,CHEN Min-you,FU Ang,et al.Reactive power optimization strategy in distribution network with wind farm[J].Power System Protection and Control,2013,41(9):100-105

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含风电场的配电网无功优化策略研究
李闯¹, 陈民铀¹, 付昂², 李俊杰², 郑永伟¹
1.输配电装备及系统安全与新技术国家重点实验室（重庆大学），重庆 400044;2.重庆市电力公司电力科学研究院，重庆 401123

摘要:

针对传统的配电网无功优化调节手段离散化、难以实现电压的连续调节等问题，研究了含风电场的配电网无功优化模型和算法，分析了双馈感应电机的无功发生能力，将风电场作为连续的无功调节手段参与配电网无功优化。并针对风电出力随机性的特点，用场景功率描述风电的随机出力，使之更具代表性。考虑了配电网的网损、电压偏差以及电压稳定性指标，建立了多目标无功优化模型。提出了基于量子粒子群算法(QPSO)的无功优化方法，该算法通过波函数描述粒子的状态，增加了种群的多样性，有效地避免了种群早熟等问题。用该算法对改进的IEEE33节点进

关键词: 风电场无功极限场景模型多目标无功优化量子粒子群算法

DOI：10.7667/j.issn.1674-3415.2013.09.016

分类号:

基金项目:国家自然科学基金资助项目（51177177）；重庆市科技攻关项目（CSTC2011AC3076）

Reactive power optimization strategy in distribution network with wind farm

LI Chuang,CHEN Min-you,FU Ang,et al

Abstract:

Considering the traditional methods of voltage adjusting in distribution network reactive power optimization is discretized, and difficult to realize the continuous voltage adjustment, this paper studies the reactive power optimization model and algorithm in distribution network with wind farm. The limitation of reactive power capacity of doubly-fed induction generator is considered and the wind farm is taken as a continuous reactive power adjustment means to participate in the optimization. Scenario power is used to describe the random power of wind farm in respect to the random characteristic of wind power. The network loss, deviation of voltage and stability of voltage are included in the multi-objective reactive power optimization model. Reactive power optimization based on quantum particle swarm optimization(QPSO) is proposed. The algorithm describes particle state by wave function, which not only increases the diversity of population, but also avoids premature of population. The comparison of results between QPSO with PSO on the modified IEEE 33-bus system demonstrates the effectiveness and advantage of quantum particle swarm optimization model, which can achieve a better global optimal solution and shows a faster convergence speed.

Key words: wind farm reactive power limitation scenario model multi-objective reactive power optimization QPSO

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