Multi-agent based distributed power agreement for enhanced frequency response of transmission systems

2017 19th International Conference on Intelligent System Application to Power Systems (ISAP) Pub Date : 2017-09-01 DOI:10.1109/ISAP.2017.8071412

Muhammad Umer Qureshi, S. Grijalva

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Abstract

In this paper, we propose a distributed open loop control algorithm for large-scale transmission systems having multiple control areas exchanging power through tie-lines. Inspired from graph theoretic methods in multi-agent systems, it ensures a high degree of coordination among control areas to improve the frequency response with minimal inter-area oscillations in case of sudden loss of generation. Local nodes associated with generation units coordinate with regional nodes monitoring tie-line flows to ensure load-generation balance is maintained at all times with sparse information exchange. We develop a Cyber-Physical abstraction which allows for a scalable architecture that is independent of the internal dynamics of the control areas. Consequently, these areas can quantitatively predefine their contribution in frequency restoration during primary control. We perform simulations on a test system resulting in improved frequency response and reduced deviation from the nominal frequency, demonstrating the efficacy of our proposed protocol.

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基于多智能体的分布式电力协议增强传输系统的频率响应

针对具有多个控制区的大型输电系统，提出了一种分布式开环控制算法。受多智能体系统中的图论方法的启发，它保证了控制区域之间的高度协调，从而在突然断电的情况下以最小的区域间振荡改善频率响应。与发电机组相关联的本地节点与监测联络线流量的区域节点进行协调，通过稀疏的信息交换，确保始终保持负荷发电平衡。我们开发了一种网络物理抽象，它允许独立于控制区域内部动态的可扩展架构。因此，这些区域可以定量地预先定义它们在初级控制期间对频率恢复的贡献。我们在测试系统上进行了模拟，结果改善了频率响应并减少了与标称频率的偏差，证明了我们提出的协议的有效性。

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2017 19th International Conference on Intelligent System Application to Power Systems (ISAP)

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