摘 要
随着电力系统规模的不断扩大和用电负荷的日益复杂化,无功功率补偿技术在提升电网运行效率、降低损耗及改善电能质量方面的重要性愈发凸显为应对传统无功补偿方法在动态响应速度、补偿精度及适应性等方面的局限性,本文聚焦于智能无功补偿技术的研究与应用,旨在通过引入先进算法与控制策略,实现对电力系统无功功率的高效、精准补偿研究中采用基于人工智能的优化算法,结合现代传感器技术和通信网络,构建了一种智能化、自适应的无功补偿系统该系统能够实时监测电网状态,并根据负荷特性动态调整补偿参数实验结果表明,所提出的智能补偿方案显著提升了系统的动态响应能力,将补偿精度提高了约20%,同时有效降低了电网电压波动和功率因数失衡问题。
关键词:智能无功补偿 动态响应 补偿精度
Abstract
With the increasing scale of power systems and the increasing complexity of power loads, The importance of reactive power compensation technology in improving grid operation efficiency, reducing loss and improving power quality. In order to cope with the limitations of traditional reactive power compensation methods in dynamic response speed, compensation accuracy and adaptability, This paper focuses on the research and application of intelligent reactive power compensation technology, By introducing the advanced algorithm and control strategies, To realize the efficient and accurate compensation of reactive power of power system, Combining modern sensor technology and communication networks, An intelligent and adaptive reactive power compensation system which can monitor the power grid status in real time, And the experimental results of dynamically adjusting the compensation parameters according to the load characteristics show that, The proposed intelligent compensation scheme significantly improves the dynamic response capability of the system, Increasing the compensation accuracy by about 20%, At the same time, it effectively reduces the power grid voltage fluctuation and power factor imbalance problem.
Keyword:Intelligent Reactive Power Compensation Dynamic Response Compensation Accuracy
目 录
引言 1
1无功补偿技术基础研究 1
1.1无功功率基本概念 1
1.2传统无功补偿方法分析 2
1.3智能无功补偿技术概述 2
1.4技术应用现状与挑战 3
2智能无功补偿的关键技术 3
2.1控制算法设计与优化 3
2.2数据采集与监测系统 4
2.3智能设备选型与配置 4
2.4系统稳定性评估方法 5
3智能无功补偿的实现方案 5
3.1分布式补偿策略研究 5
3.2动态补偿技术实现路径 5
3.3基于人工智能的优化控制 6
3.4实时响应机制设计 6
4智能无功补偿的应用案例分析 7
4.1典型电力系统案例解析 7
4.2补偿效果评估指标体系 7
4.3经济性与可行性分析 8
4.4未来发展方向探讨 8
结论 8
参考文献 10
致谢 11
