统一潮流控制器提高互联网络电压稳定性

International journal of advances in science, engineering and technology Pub Date : 2021-01-02 DOI:10.37121/jase.v4i1.141

I. A. Araga, A. Airoboman

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引用次数: 2

摘要

本文研究了大规模输电网络中统一潮流控制器(UPFC)的优化配置问题，以提高电网的负荷裕度。为了实现这一目标，采用线路稳定因子(LQP)作为UPFC在IEEE 14总线网络和56总线尼日利亚国家电网中的最佳位置技术。UPFC的功率注入模型用于确保IEEE 14总线网络和56总线尼日利亚国家电网系统的负载余量的改进。采用连续潮流来评估UPFC对负荷裕度的影响。利用MATLAB中的电力系统分析工具箱(PSAT)进行稳态仿真，以确定将UPFC放置在IEEE 14总线网络中的总线13和总线14之间，以及56总线尼日利亚国家电网系统中的总线44 (Ikot-Ekpene)和总线56 (Odukpani)之间的有效性。结果表明，将UPFC优化置于IEEE 14总线网络后，负载裕度提高了8.52%，将UPFC优化置于56总线的尼日利亚国家电网系统后，负载裕度提高了195.5%。从而提高了电网的电压稳定性，有效地利用了电网。

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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Enhancement of voltage stability in an interconnected network using unified power flow controller

In this paper, the optimal placement of Unified Power Flow Controllers (UPFC) in a large-scale transmission network in order to improve the loadability margin was considered. In other to achieve this aim, the Line Stability Factor (LQP) as a technique for the optimal location of UPFC in the IEEE 14-bus network and 56-bus Nigerian national grid was adopted. The power injection model for the UPFC was employed to secure improvements in the loading margin of the IEEE 14-bus network and 56-bus Nigerian national grid system. Continuation power flow was used to assess the effect of UPFC on the loadability margin. Steady-state simulations using Power System Analysis Toolbox (PSAT) on MATLAB was applied to determine the effectiveness of placing UPFC between bus 13 and bus 14 in the IEEE 14-bus network and between bus 44 (Ikot-Ekpene) and bus 56 (Odukpani) in the 56-bus Nigerian national grid system. The results showed that the loadability margin increased by 8.52 % after UPFC was optimally placed in the IEEE 14-bus network and increased by 195.5 % after UPFC was optimally placed in the 56-bus Nigerian national grid system. Thus, these enhance the voltage stability of both network and utilizing the network efficiently.

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International journal of advances in science, engineering and technology

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