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Design of PID-PSS and SVC in a Multi-machine System for Damping of Power System Oscillations Using Genetic Algorithm

机译：多机系统中PID-PSS和SVC的设计，用于使用遗传算法阻尼电力系统振荡的影响

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Low frequency power system oscillations are damped with the help of conventional lead-lag Power System Stabilizer (PSS) by generating supplementary control signal for the excitation system. The primary function of Static Var Compensator (SVC) is to provide voltage control of long transmission lines. It can be utilized to damp power system oscillations. This paper presents robust tuning of Proportional Integral Derivative Power System Stabilizer (PID-PSS) and Static Var Compensator (SVC) using Genetic Algorithm in multi machine power systems. The placement of PSS is determined with the help of Participation Factors. The placement of SVC is found by applying Residue method. The performance of the controllers has been checked using both eigenvalue analysis and time domain simulation on 4-machine, 10 bus, two area system. The proposed controller is compared with conventional Power System Stabilizer.

机译：通过为励磁系统产生补充控制信号，通过传统的引线滞后电力系统稳定器（PSS）的帮助下减少低频电力系统振荡。静态VAR补偿器（SVC）的主要功能是提供长传输线的电压控制。它可以用于潮湿的电力系统振荡。本文采用多机动力系统中的遗传算法介绍了比例整体衍生电力系统稳定器（PID-PSS）和静态VAR补偿器（SVC）的强大调整。在参与因素的帮助下确定PSS的放置。通过施加残留方法发现SVC的放置。使用4机器，10个总线，两个区域系统的特征值分析和时域仿真检查了控制器的性能。将所提出的控制器与传统的电力系统稳定器进行比较。

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《IEEE India International Conference on Power Electronics 》|2012年||共6页
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Hitesh R. Jariwala; Anandita Chowdhury;
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中图分类 TN-532;
关键词
Power System Stabilizer; Static Var Compensator; Genetic Algorithm; Participation Factor; Residue; Conventional Power System Stabilizer .;

机译：电力系统稳定器;静态VAR补偿器;遗传算法;参与因素;残留物;传统的电力系统稳定器。;

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1. Application of SVC for Electromechanical Oscillation Damping Improvement in Multi-Machine Power System [J] . WSEAS Transactions on Power Systems . 2019 ,第期

机译：SVC在多机动力系统中的机电振荡阻尼改进的应用
2. Online Adaptive Neurofuzzy Based SVC Control Strategy for Damping Low Frequency Oscillations in Multi-Machine Power System [J] . Saima Ali, Shahid Qamar, Laiq Khan, International Journal of Energy and Power Engineering . 2013 ,第4期

机译：基于在线自适应神经模糊的SVC控制策略以抑制多机电力系统中的低频振荡
3. Improvement of low frequency oscillation damping by allocation and design of power system stabilizers in the multi-machine power system [J] . A.R. Fereidouni, B. Vahidi, T. Hoseini Mehr, International journal of electrical power and energy systems . 2013 ,第nova期

机译：通过多机电力系统中电力系统稳定器的分配和设计来改善低频振荡阻尼
4. Design of PID-PSS and SVC in a multi-machine system for damping of power system oscillations using Genetic Algorithm [C] . Jariwala Hitesh R., Chowdhury Anandita 2012 IEEE 5th India International Conference on Power Electronics. . 2012

机译：基于遗传算法的多机系统电力系统振荡阻尼PID-PSS和SVC设计
5. A simulation and analysis toolbox for power systems and genetic algorithm-based damping controller design. [D] . Hasanovic, Amer. 2001

机译：电力系统和基于遗传算法的阻尼控制器设计的仿真和分析工具箱。
6. Improved Power System Stability Using Backtracking Search Algorithm for Coordination Design of PSS and TCSC Damping Controller [O] . Naz Niamul Islam, M. A. Hannan, Azah Mohamed, 2011

机译：PSS和TCSC阻尼控制器协调设计的回溯搜索算法提高了电力系统的稳定性
7. Online Adaptive Neurofuzzy Based SVC Control Strategy for Damping Low Frequency Oscillations in Multi-Machine Power System [O] . Saima Ali 2013

机译：基于在线自适应神经线的SVC控制策略，用于多机电力系统中的低频振荡

Design of PID-PSS and SVC in a Multi-machine System for Damping of Power System Oscillations Using Genetic Algorithm

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