基于物联网和遗传算法的电力系统拥塞有效管理自动中央控制器

2021 IEEE Second International Conference on Control, Measurement and Instrumentation (CMI) Pub Date : 2021-01-08 DOI:10.1109/CMI50323.2021.9362873

N. Janarthanan, J. Vasantha Kumar, S. Balamurugan

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引用次数: 2

摘要

电力系统拥塞管理是保证电力系统安全运行的重要手段。拥塞管理涉及以有效的方式同时通过不同的传输线重新布线。本文采用基于物联网的控制策略，通过同时改变电力系统各母线的负载来缓解输电线路的拥塞。此策略涉及应用消息队列遥测传输(MQTT)协议。负载由继电器远程控制。根据所提出的中央控制器给出的解，继电器接收切换负载的控制信号，中央控制器根据基于遗传算法的优化方法进行与母线功率注入变化相关的计算。电力系统需要同时控制不同的负荷来管理拥塞，而这一自动化技术使之成为可能。本文在实验室规模的ieee5总线硬件模型上对该自动中央控制器策略进行了测试，并给出了测试结果。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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IoT and Genetic Algorithm based Automated Central Controller for Effective Congestion Management in Power System

Power system congestion management plays a major role in managing the system in a secured state. Congestion management involves the rerouting of power through different transmission lines in an effective manner simultaneously. In this paper, congestion is relieved in the transmission line by varying the loads at different buses of the power system simultaneously using IoT (Internet of Things) based control strategy. This strategy involves applying a Message Queue Telemetry Transport (MQTT) protocol. The loads are controlled remotely using relays. The relays receive the control signal for switching the load depending on the solution given by the proposed central controller which performs computation related to change in bus power injection based on the GA based optimization method. Power system requires simultaneous control of different loads to manage the congestion which is made possible by this automated technique. This automated central controller strategy is tested in laboratory scale IEEE 5 bus hardware model and the results are presented in this paper.

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2021 IEEE Second International Conference on Control, Measurement and Instrumentation (CMI)

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