利用 SVPWM 和 MGWO 技术降低分布式功率流控制器中的谐波并改善电能质量

Subhasis Bandopadhyay, Atanu Bandyopadhyay, Ashoke Mondal, Pradip kumar Sadhu
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引用次数: 0

摘要

分布式功率流控制器可视为先进的功率流控制器,它是串联和并联补偿器的组合,不带直流链路。本文将空间矢量脉宽调制应用于分布式功率流控制器,以减少谐波并改善电能质量。所采用的新技术 SVPWM 可减少谐波,同时改善电能质量并提高瞬态稳定性。本文采用多目标灰狼算法这一新技术来优化 DPFC 的控制器参数。在设计 PI 控制器时,可以使用 GWO 算法来优化 DPFC 的性能。因此,电能质量和电压曲线大幅改善,同时谐波也显著降低,电压总谐波失真(THD)为 4.62%,电流总谐波失真(THD)为 1.8%。仿真结果和硬件模型证明了拟议配置的可行性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Harmonics reduction and power quality improvement in distributed power flow controller by SVPWM and MGWO technique

Harmonics reduction and power quality improvement in distributed power flow controller by SVPWM and MGWO technique

The Distributed power flow controller can be considered as advance power flow controller which is combination of series and shunt compensator without DC link. In this paper Space vector Pulse width Modulation employs in Distributed power flow Controller for Harmonics Reduction and power quality improvement. A new technique SVPWM adopted which reduces the harmonics and the same time improves power quality and increase transient stability. In this paper a new technique of Multi objective Grey wolf algorithm used to optimize the controller parameter of DPFC. For the design of PI controller GWO algorithm can be used for better optimistic performance of DPFC. As a result of that power quality and voltage profile improves drastically and the same time harmonics also reduced remarkable level of 4.62% of Voltage THD and 1.8% of current THD. The simulation result and hardware model Prove the feasibility of proposed Configuration.

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