摘 要
在电力系统运行过程中,故障电流的快速准确限制对于系统的稳定与安全至关重要。本文围绕故障电流限制技术的理论与实践应用展开深入研究,首先介绍了研究的背景和意义,并从国内外的研究现状出发,明确了研究目的和方法。随后,文章对电力系统故障电流的产生机理、类型以及影响因素进行了详尽的分析,并重点讨论了电源容量、电网结构和接地方式对故障电流大小的具体影响。在故障电流限制技术原理部分,文中分别对传统和新型限制技术进行了介绍,并详细研究了电磁式、非线性电阻及电力电子技术在故障电流限制中的应用。针对故障电流限制技术的优化策略,本文提出了基于智能算法的限制方案优化、考虑系统动态特性的实时控制策略、多目标优化的综合限制策略以及适应电网变化的自适应限制策略,旨在提升故障电流限制技术的效率和适应性。通过分析国内典型案例,本文总结了技术应用的成功因素,提炼出案例的经验与启示,为今后的技术应用和优化提供了参考。最后,文章总结了研究成果,并对未来的研究方向提出了展望。
关键词:电力系统 故障电流 限制技术 智能算法
Abstract
The rapid and accurate limitation of fault current is crucial for the stability and safety of the power system during operation. This article conducts in-depth research on the theory and practical application of fault current limitation technology. Firstly, the background and significance of the research are introduced, and starting from the current research status at home and abroad, the research ob jectives and methods are clarified. Subsequently, the article provides a detailed analysis of the mechanism, types, and influencing factors of fault current in the power system, with a focus on the specific effects of power supply capacity, grid structure, and grounding methods on the magnitude of fault current. In the principle section of fault current limiting technology, the article introduces traditional and new limiting technologies respectively, and studies in detail the applications of electromagnetic, nonlinear resistance, and power electronics technology in fault current limiting. This article proposes optimization strategies for fault current limitation technology based on intelligent algorithms, real-time control strategies considering system dynamic characteristics, comprehensive limitation strategies for multi-ob jective optimization, and adaptive limitation strategies adapted to changes in the power grid. The aim is to improve the efficiency and adaptability of fault current limitation technology. By analyzing typical domestic cases, this article summarizes the success factors of technology application, extracts the experience and inspiration of the cases, and provides reference for future technology application and optimization. Finally, the article summarizes the research findings and proposes prospects for future research directions.
key words:Power system; Fault current; Restricted technology; Intelligent algorithms
目 录
摘 要 I
Abstract II
第1章 绪论 1
1.1 研究背景和意义 1
1.2 国内外研究现状 1
1.3 研究目的及方法 2
第2章 电力系统故障电流分析 3
2.1 故障电流的产生机理 3
2.2 电力系统故障类型 3
2.3 影响故障电流大小的因素 4
2.3.1 电源容量 4
2.3.2 电网结构 4
2.3.3 接地方式 4
第3章 故障电流限制技术原理 6
3.1 传统限制技术简介 6
3.2 新型限制技术原理 6
3.3 具体限制技术研究 6
3.3.1 电磁式限制技术 6
3.3.2 非线性电阻限制技术 7
3.3.3 电力电子技术在限制中的应用 7
第4章 故障电流限制技术的优化策略 9
4.1 基于智能算法的限制方案优化 9
4.2 考虑系统动态特性的实时控制策略 9
4.3 多目标优化的综合限制策略 10
4.4 适应电网变化的自适应限制策略 10
第5章 故障电流限制技术在实际中的应用案例分析 12
5.1 国内典型案例介绍 12
5.2 技术应用的成功因素分析 12
5.3 案例的经验与启示 13
第6章 结论 14
参考文献 15
致 谢 16
