电力系统中的分布式电源协调控制策略
摘 要
本研究针对电力系统中分布式电源协调控制策略进行了深入探讨。随着可再生能源的大规模接入,分布式电源在电力系统中的角色愈发重要。本研究旨在提高电力系统的稳定性与效率,通过优化分布式电源的协调控制策略来实现。我们采用先进的控制算法,结合电力系统的实际运行数据,对分布式电源进行了精细化建模与分析。研究过程中,我们创新性地提出了一种基于多智能体系统的协调控制方法,该方法能够实时响应电网状态变化,动态调整分布式电源的输出,以保障电网的稳定运行。实验结果表明,该策略不仅显著提高了电力系统的稳定性,还有效降低了能源损耗,提升了能源利用效率。此外,本研究还贡献了一种新颖的通信机制,使得分布式电源之间能够实现高效的信息交互,进一步增强了电力系统的鲁棒性。综上所述,本研究通过创新的协调控制策略和通信机制,为电力系统的稳定运行和能源的高效利用提供了有力支持。
关键词:分布式电源协调控制;多智能体系统;电力系统稳定性
Abstract
This study deeply discusses the coordinated control strategy of distributed power supply in the power system. With the large-scale access of renewable energy sources, distributed power supply plays an increasingly important role in the power system. The study aims to improve the stability and efficiency of the power system by optimizing the coordinated control strategy of distributed power supply. We use advanced control algorithm and combined with the actual operation data of power system to carry out fine modeling and analysis of distributed power supply. In the process of research, we innovatively proposed a coordinated control method based on multi-agent system, which can respond to the change of power grid state in real time and dynamically adjust the output of distributed power supply, so as to ensure the stable operation of the power grid. The experimental results show that this strategy not only significantly improves the stability of the power system, but also effectively reduces the energy loss and improves the energy utilization efficiency. Moreover, this study contributes a novel communication mechanism that enables efficient information interaction between distributed power sources, which further enhances the robustness of the power system. In conclusion, this study provides strong support for the stable operation of the power system and the efficient utilization of energy through innovative coordinated control strategies and communication mechanisms.
Key Words: Coordinated control of distributed power supply; multi-agent system; power system stability
目 录
摘 要 I
Abstract II
第一章 绪 论 1
第二章 电力系统频率稳定性的基本概念 2
2.1 频率稳定性的定义与重要性 2
2.2 电力系统频率波动的原因及影响 2
2.3 频率稳定性分析的必要性 3
第三章 电力系统频率稳定性的分析方法 4
3.1 静态频率稳定性分析 4
3.2 动态频率稳定性分析 4
3.3 基于仿真模型的频率稳定性评估 5
3.4 频率稳定性的实时监测与预警系统 5
第四章 电力系统频率稳定性的控制策略 7
4.1 传统调频控制方法及其局限性 7
4.2 基于储能技术的调频控制策略 7
4.3 需求侧管理在调频控制中的应用 8
4.4 智能电网技术对调频控制的影响 8
第五章 电力系统频率稳定性的优化与实践 9
5.1 频率稳定性优化的目标与原则 9
5.2 国内外调频控制的成功案例分析 9
5.3 新型调频控制技术的实践应用 10
5.4 电力系统频率稳定性的未来发展趋势 10
结论 12
致 谢 13
参考文献 14
摘 要
本研究针对电力系统中分布式电源协调控制策略进行了深入探讨。随着可再生能源的大规模接入,分布式电源在电力系统中的角色愈发重要。本研究旨在提高电力系统的稳定性与效率,通过优化分布式电源的协调控制策略来实现。我们采用先进的控制算法,结合电力系统的实际运行数据,对分布式电源进行了精细化建模与分析。研究过程中,我们创新性地提出了一种基于多智能体系统的协调控制方法,该方法能够实时响应电网状态变化,动态调整分布式电源的输出,以保障电网的稳定运行。实验结果表明,该策略不仅显著提高了电力系统的稳定性,还有效降低了能源损耗,提升了能源利用效率。此外,本研究还贡献了一种新颖的通信机制,使得分布式电源之间能够实现高效的信息交互,进一步增强了电力系统的鲁棒性。综上所述,本研究通过创新的协调控制策略和通信机制,为电力系统的稳定运行和能源的高效利用提供了有力支持。
关键词:分布式电源协调控制;多智能体系统;电力系统稳定性
Abstract
This study deeply discusses the coordinated control strategy of distributed power supply in the power system. With the large-scale access of renewable energy sources, distributed power supply plays an increasingly important role in the power system. The study aims to improve the stability and efficiency of the power system by optimizing the coordinated control strategy of distributed power supply. We use advanced control algorithm and combined with the actual operation data of power system to carry out fine modeling and analysis of distributed power supply. In the process of research, we innovatively proposed a coordinated control method based on multi-agent system, which can respond to the change of power grid state in real time and dynamically adjust the output of distributed power supply, so as to ensure the stable operation of the power grid. The experimental results show that this strategy not only significantly improves the stability of the power system, but also effectively reduces the energy loss and improves the energy utilization efficiency. Moreover, this study contributes a novel communication mechanism that enables efficient information interaction between distributed power sources, which further enhances the robustness of the power system. In conclusion, this study provides strong support for the stable operation of the power system and the efficient utilization of energy through innovative coordinated control strategies and communication mechanisms.
Key Words: Coordinated control of distributed power supply; multi-agent system; power system stability
目 录
摘 要 I
Abstract II
第一章 绪 论 1
第二章 电力系统频率稳定性的基本概念 2
2.1 频率稳定性的定义与重要性 2
2.2 电力系统频率波动的原因及影响 2
2.3 频率稳定性分析的必要性 3
第三章 电力系统频率稳定性的分析方法 4
3.1 静态频率稳定性分析 4
3.2 动态频率稳定性分析 4
3.3 基于仿真模型的频率稳定性评估 5
3.4 频率稳定性的实时监测与预警系统 5
第四章 电力系统频率稳定性的控制策略 7
4.1 传统调频控制方法及其局限性 7
4.2 基于储能技术的调频控制策略 7
4.3 需求侧管理在调频控制中的应用 8
4.4 智能电网技术对调频控制的影响 8
第五章 电力系统频率稳定性的优化与实践 9
5.1 频率稳定性优化的目标与原则 9
5.2 国内外调频控制的成功案例分析 9
5.3 新型调频控制技术的实践应用 10
5.4 电力系统频率稳定性的未来发展趋势 10
结论 12
致 谢 13
参考文献 14
