使用基于MPPT和微调功率算法的新配置和控制系统,风电场在工频控制中的快速响应贡献

IF 2.1 Q3 COMPUTER SCIENCE, HARDWARE & ARCHITECTURE IEEE Canadian Journal of Electrical and Computer Engineering Pub Date : 2022-09-09 DOI:10.1109/ICJECE.2022.3192312
Ali Mastanabadi;Gholamreza Aghajani;Davar Mirabbasi
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引用次数: 0

摘要

如今,随着电网的日益扩大和风能系统的使用,电力系统的频率控制问题变得非常重要。在传统的电力系统中,频率的控制通常由水力发电厂执行,水力发电厂是电网的备用母线。它们通常具有快速的动态响应,能够快速改变功率输出。在干旱、缺乏大型水电站或电网扩张等情况下,这可能很困难。本文提出了一种新的拓扑结构和控制系统,用于通过高压直流链路连接到四区电网的风电场,该系统可以参与电力系统的频率控制问题。该系统基于最大功率点跟踪(MPPT)和基于永磁同步发电机(PMSG)的风电场的微调控制。在四区电网上对模拟结果进行了评估,并将其与没有风电场的频率控制进行了比较,获得了具有适当和可接受的动态响应的预期结果。仿真结果在MATLAB/Simulink环境下进行。
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Wind Farm Fast Response Contribution in Power Frequency Control, Using a New Configuration and Control System Based on MPPT and Fine Tune Power Algorithm
Nowadays, with the increasing expansion of the power grid and the use of wind energy systems, the issue of frequency control of the power system in their presence is very important. In traditional power systems, the control of frequency is generally performed by hydroelectric power plants that are the slack bus of the grid. They usually have fast dynamic responses, capable of changing the power output rapidly. This can be difficult in cases such as drought, lack of large hydropower plants, or the expansion of the power grid. In this article, a new topology and control system for a wind farm connected to a four-area grid through an high voltage dc (HVdc) link is presented, which can participate in the issue of frequency control of the power system. The proposed system is based on maximum power point tracking (MPPT) and fine tune control of the permanent magnet synchronous generator (PMSG)-based wind farm. The simulation results were evaluated on a four-area power grid, they were compared with the absence of wind farm in frequency control, and the desired results with appropriate and acceptable dynamic responses were achieved. The simulation results were performed on the MATLAB/Simulink environment.
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