统一潮流控制器(upfc)提升系统动态稳定性的理想位置和尺寸选择:蚁群优化器和入侵杂草优化算法

M. Shanmugam, P. Rajesh
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引用次数: 187

摘要

本文提出了一种混合方法,通过优化统一潮流控制器(UPFC)的位置和尺寸来提高框架的动态强度。提出的方法结合了蚁群优化(ALO)和入侵杂草优化(IWO)技术。该方法具有搜索能力强、辨识最优解能力强、可靠性高等优点。最初,为了定位upfc,使用ALO技术,功率损耗最大的总线被识别为最佳位置。解决这种情况所需的容量由IWO技术确定,该技术基于upfc的最小功率损耗、电压偏差和建立成本。该系统在矩阵实验室(MATLAB)环境下实现,并在IEEE标准基准系统的基础上对潮流安全性和电压稳定性进行了评估。此时,通过改变系统负荷和发电量,分析了电压稳定性、功率损耗、过载和UPFC成本。然后对所提出的工作方法进行了评估,并与传统技术进行了比较。
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Ideal position and size selection of unified power flow controllers (UPFCs) to upgrade the dynamic stability of systems: An antlion optimiser and invasive weed optimisation Algorithm
This paper proposes a hybrid methodology to improve the dynamic strength of frameworks by optimally locating and sizing the unified power flow controller (UPFC). The proposed method combines both the antlion optimiser (ALO) and invasive weed optimisation (IWO) techniques. The advantages of the proposed methodology are enhanced searching ability, better identification of optimal solutions and greater reliability. Initially, to locate UPFCs, using the ALO technique, the most extreme power loss bus is recognised as the optimal location. The capacity required to resolve the situation is determined by the IWO technique based on the minimum power loss, voltage deviation and establishment cost of the UPFCs. The proposed system is actualised and aims at the matrix laboratory (MATLAB) environment, while the power flow security and voltage stability are evaluated on the basis of the Institute of Electrical and Electronics Engineers (IEEE) standard benchmark system. At this point, voltage stability, power loss, overloading and UPFC costs are analysed through changing the system load and generation. The proposed working method is then assessed and compared with traditional techniques.
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来源期刊
Transactions Hong Kong Institution of Engineers
Transactions Hong Kong Institution of Engineers Engineering-Engineering (all)
CiteScore
2.70
自引率
0.00%
发文量
22
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