OPTIMAL SVC PLACEMENT FOR VOLTAGE STABILITY ENHANCEMENT OF POWER SYSTEMS UNDER CRITICAL OPERATION CONDITIONS

Jiansheng Huang; Michael Negnevitsky

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OPTIMAL SVC PLACEMENT FOR VOLTAGE STABILITY ENHANCEMENT OF POWER SYSTEMS UNDER CRITICAL OPERATION CONDITIONS

机译：临界运行条件下用于提高电力系统电压稳定性的最佳SVC位置

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摘要

This paper presents a messy genetic-algorithm-based optimization scheme for placement of static VAR compensators (SVCs), aimed at voltage stability enhancement of power systems under critical operation conditions. The SVC planning was formulated as a multi-objective optimization problem in terms of maximum worst-case reactive power margin, highest load voltages towards the critical operating points, minimum real power losses and lowest costs of SVC devices. During the genetic algorithm search for the optimal solution, the most critical disturbance scenario was estimated with the configuration of the original power system and each candidate of the SVC placement. The approximation can greatly simplify the SVC planning. By employing a fuzzy performance index, the multi-objective optimization was further transformed into a constrained problem with a single objective function.

机译：本文提出了一种基于混乱遗传算法的静态VAR补偿器（SVC）布置的优化方案，旨在提高关键工作条件下电力系统的电压稳定性。根据最大最坏情况下的无功功率裕度，针对关键工作点的最高负载电压，最小的有功功率损耗和SVC设备的最低成本，SVC规划被表述为多目标优化问题。在遗传算法搜索最佳解决方案的过程中，使用原始电力系统的配置和SVC位置的每个候选对象，估计了最严重的干扰情况。这种近似可以大大简化SVC计划。通过采用模糊性能指标，将多目标优化进一步转化为具有单个目标函数的约束问题。

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来源
《International journal of power & energy systems》 |2011年第3期|p.145-153|共9页
作者
Jiansheng Huang; Michael Negnevitsky;
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作者单位

School of Computing and Mathematics, University of Western Sydney, Locked Bay 1797, Penrith NSW 2751, Australia;

School of Engineering, University of Tasmania, Hobart, Tasmania 7001, Australia;

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收录信息美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
voltage stability enhancement; worst-case reactive power margin; multi-objective optimization; messy genetic algorithm; lagrange multiplier method; fuzzy logic performance index;

机译：电压稳定性增强;最坏情况下的无功功率裕度;多目标优化;凌乱的遗传算法;拉格朗日乘数法模糊逻辑性能指标;

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2. Optimal location of SVC for improvement in voltage stability of a power system under normal and contingency condition [J] . Pallavi Choudekar, S. K. Sinha, Anwar Siddiqui International journal of systems assurance engineering and management . 2017,第novasuppla2期

机译：SVC的最佳位置，以改善电力系统在正常和偶发情况下的电压稳定性
3. Combined operation of SVC and optimal reclosing of circuit breakers for power system transient stability enhancement [J] . Mohammad Ashraf Hossain Sadi, Mohd. Hasan Ali Electric power systems research . 2014,第jana期

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4. Optimal SVC placement for voltage stability reinforcement of power systems with most critical and N-1 security criteria [C] . Huang Jiansheng, Zhuhan Jiang, Negnevitsky Michael 2012 IEEE International Energy Conference and Exhibition. . 2012

机译：最佳SVC布置，可通过最关键的N-1安全标准增强电力系统的电压稳定性
5. Power System Operation and Monitoring: An Optimal Power Tracing Based SCUC Model and An Optimal Joint Placement of PMUs and Flow Measurements [D] . Zhu, Songming. 2018

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7. Power System Stability Enhancement Through the Optimal, Passivity-Based, Placement of Svcs [O] . Chrysovalantis Spanias, Petros Aristidou, Michalis Michaelides, 2018

机译：电力系统稳定性通过SVC的最佳，被动，放置的优化增强

OPTIMAL SVC PLACEMENT FOR VOLTAGE STABILITY ENHANCEMENT OF POWER SYSTEMS UNDER CRITICAL OPERATION CONDITIONS

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