摘 要
电力系统电压稳定性是保障电网安全运行和可靠供电的关键问题,随着新能源接入比例增加及负荷特性变化,传统分析与控制方法面临诸多挑战。本文以提升电力系统电压稳定性为目标,深入探讨了电压失稳的机理及其影响因素,并提出了一种基于数据驱动与动态优化的综合分析与控制框架。研究通过构建改进的潮流方程模型,结合灵敏度分析方法,准确识别了系统中的薄弱节点;同时,引入多目标优化算法设计了一种自适应无功功率补偿策略,有效提升了系统的静态与暂态电压稳定性。仿真结果表明,所提方法能够在复杂工况下显著降低电压崩溃风险,提高系统运行效率。
关键词:电压稳定性 数据驱动 无功功率补偿
Abstract
The voltage stability of the power system is a key issue to ensure the safe operation and reliable power supply of the power grid. With the increase of the proportion of new energy access and the change of load characteristics, the traditional analysis and control methods face many challenges. With the goal of improving the voltage stability of the power system, this paper deeply discusses the mechanism of voltage instability and its influencing factors, and proposes a comprehensive analysis and control fr amework based on data-driven and dynamic optimization. By constructing the improved tide equation model and identifying the weak nodes in the system, the multi-ob jective optimization algorithm is introduced to improve the static and transient voltage stability of the system. The simulation results show that the proposed method can significantly reduce the risk of voltage collapse and improve the system operation efficiency under complex working conditions.
Keyword:Voltage Stability Data Driven Reactive Power Compensation
目 录
1绪论 1
1.1电力系统电压稳定性研究背景与意义 1
1.2电压稳定性分析与控制的研究现状这一领域已取得显著进展 1
1.3本文研究方法与技术路线 1
2电压稳定性的理论基础与分析方法 2
2.1电压稳定性的基本概念与定义 2
2.2电压稳定性分析的数学模型 2
2.3常用电压稳定性分析方法综述 3
2.4理论基础对控制策略的指导作用 3
3电压稳定性的影响因素与评估指标 3
3.1负荷特性对电压稳定性的影响 4
3.2网络结构与参数对电压稳定性的作用 4
3.3电压稳定性评估的关键指标体系 4
3.4影响因素与评估指标的综合分析 2
4电压稳定性的控制策略与优化方法 2
4.1控制策略的基本框架与分类 2
4.2静态无功补偿装置的应用分析 3
4.3动态电压稳定控制技术研究 3
4.4控制策略的优化与实际应用案例 4
结论 4
参考文献 6
致谢 7
电力系统电压稳定性是保障电网安全运行和可靠供电的关键问题,随着新能源接入比例增加及负荷特性变化,传统分析与控制方法面临诸多挑战。本文以提升电力系统电压稳定性为目标,深入探讨了电压失稳的机理及其影响因素,并提出了一种基于数据驱动与动态优化的综合分析与控制框架。研究通过构建改进的潮流方程模型,结合灵敏度分析方法,准确识别了系统中的薄弱节点;同时,引入多目标优化算法设计了一种自适应无功功率补偿策略,有效提升了系统的静态与暂态电压稳定性。仿真结果表明,所提方法能够在复杂工况下显著降低电压崩溃风险,提高系统运行效率。
关键词:电压稳定性 数据驱动 无功功率补偿
Abstract
The voltage stability of the power system is a key issue to ensure the safe operation and reliable power supply of the power grid. With the increase of the proportion of new energy access and the change of load characteristics, the traditional analysis and control methods face many challenges. With the goal of improving the voltage stability of the power system, this paper deeply discusses the mechanism of voltage instability and its influencing factors, and proposes a comprehensive analysis and control fr amework based on data-driven and dynamic optimization. By constructing the improved tide equation model and identifying the weak nodes in the system, the multi-ob jective optimization algorithm is introduced to improve the static and transient voltage stability of the system. The simulation results show that the proposed method can significantly reduce the risk of voltage collapse and improve the system operation efficiency under complex working conditions.
Keyword:Voltage Stability Data Driven Reactive Power Compensation
目 录
1绪论 1
1.1电力系统电压稳定性研究背景与意义 1
1.2电压稳定性分析与控制的研究现状这一领域已取得显著进展 1
1.3本文研究方法与技术路线 1
2电压稳定性的理论基础与分析方法 2
2.1电压稳定性的基本概念与定义 2
2.2电压稳定性分析的数学模型 2
2.3常用电压稳定性分析方法综述 3
2.4理论基础对控制策略的指导作用 3
3电压稳定性的影响因素与评估指标 3
3.1负荷特性对电压稳定性的影响 4
3.2网络结构与参数对电压稳定性的作用 4
3.3电压稳定性评估的关键指标体系 4
3.4影响因素与评估指标的综合分析 2
4电压稳定性的控制策略与优化方法 2
4.1控制策略的基本框架与分类 2
4.2静态无功补偿装置的应用分析 3
4.3动态电压稳定控制技术研究 3
4.4控制策略的优化与实际应用案例 4
结论 4
参考文献 6
致谢 7
