Improvement of the Power System's Transient Stability Using the Unified Power Flow Controller with Fuzzy Logic Technique

Q4 Biochemistry, Genetics and Molecular Biology Journal of Biomolecular Techniques Pub Date : 2023-09-02 DOI:10.51173/jt.v5i3.1249
None Raghad Hameed Ahmed, None Ahmed Said Nouri
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Abstract

By combining the functions of many FACTS (flexible alternative current transmission systems) devices into a single unit, the UPFC (unified power flow controller) is the most efficient FACTS device available. Two voltage converters work together to form the Unified Power Flow Controller, a flexible tool for enhancing voltage regulation, power flow management, and power system stability. Both converters rely heavily on their control methods. This article discusses the power flow mechanism in a transmission line, which is necessary for understanding the functioning of UPFC in a transmission line and using a standard PI controller with voltage references in the control circuit of both converters. This study aims to enhance the power system's dependability and stability by developing a smart support-based UPFC device. Fuzzy logic is a useful tool for controlling UPFC equipment in a variety of failure scenarios. The fuzzy logic controller contrasts power grid characteristics such as a rotor speed deviation to a reference value to create operational pulses for the voltage source converter in the UPFC system. The suggested model will be tested using MATLAB simulation. The success of the proposed model is shown by thoroughly comparing simulation results to those of previously established models. This research paper's original contribution is the creation of a smart support-based UPFC device with fuzzy logic control. By comparing power system parameters such as rotor speed deviation to a reference value and generating operational pulses for the voltage source converter in the UPFC system, this technique increases the electricity grid's dependability and stability. The effectiveness of the suggested model is proved by a comparison of simulation results obtained in a MATLAB environment with those obtained from previously developed models.
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基于模糊逻辑的统一潮流控制器对电力系统暂态稳定性的改善
通过将许多灵活的交流传输系统(FACTS)设备的功能组合到一个单元中,UPFC(统一潮流控制器)是最有效的FACTS设备。两个电压变换器一起工作,形成统一潮流控制器,一个灵活的工具,加强电压调节,潮流管理和电力系统的稳定性。这两种转换器都严重依赖于它们的控制方法。本文讨论了传输线中的功率流机制,这对于理解UPFC在传输线中的功能以及在两个转换器的控制电路中使用带参考电压的标准PI控制器是必要的。本研究旨在开发一种基于智能支持的UPFC设备,以提高电力系统的可靠性和稳定性。模糊逻辑是在各种故障情况下控制UPFC设备的有用工具。模糊逻辑控制器将电网特性(如转子转速偏差)与参考值进行对比,为UPFC系统中的电压源转换器创建操作脉冲。建议的模型将使用MATLAB仿真进行测试。仿真结果与已有模型的仿真结果进行了比较,证明了该模型的有效性。本研究论文的原创性贡献在于创建了一种基于智能支持的UPFC模糊逻辑控制装置。该技术通过将转子转速偏差等电力系统参数与参考值进行比较,并为UPFC系统中的电压源变换器产生工作脉冲,提高了电网的可靠性和稳定性。将MATLAB环境下的仿真结果与已有模型的仿真结果进行了比较,证明了该模型的有效性。
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来源期刊
Journal of Biomolecular Techniques
Journal of Biomolecular Techniques Biochemistry, Genetics and Molecular Biology-Molecular Biology
CiteScore
2.50
自引率
0.00%
发文量
9
期刊介绍: The Journal of Biomolecular Techniques is a peer-reviewed publication issued five times a year by the Association of Biomolecular Resource Facilities. The Journal was established to promote the central role biotechnology plays in contemporary research activities, to disseminate information among biomolecular resource facilities, and to communicate the biotechnology research conducted by the Association’s Research Groups and members, as well as other investigators.
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