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Transient stabilization of power swing by controllable PV farm equipped with optimal fuzzy gain scheduling of PID controller

机译：配备PID控制的最优模糊增益调度的可控光伏发电场的暂态稳定控制。

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摘要

The severe faults in power systems may cause the power swing and transient instability. On the other hand, recently, the large photovoltaic (PV) farms have been extensively installed in power systems. With the ability of PV inverter, it is possible to control the PV output power quickly to stabilize the power swing. This paper proposes an optimal fuzzy gain scheduling of PID (FGS-PID) controller equipped with the PV inverter for stabilization of power swing. Without trial and error, the scale factors, membership functions and control rules of the FGS-PID controller are automatically obtained by a bee colony optimization. Simulation study in a single machine infinite bus system confirms the superior stabilizing effect of the PV with proposed FGS-PID in comparison to the PV with MPPT and the PV with PID.

机译：电力系统中的严重故障可能会导致电源摆幅和瞬态不稳定。另一方面，最近，大型光伏（PV）农场已广泛安装在电力系统中。借助光伏逆变器的功能，可以快速控制光伏输出功率以稳定功率摆幅。为稳定功率摆幅，提出了一种配备光伏逆变器的PID（FGS-PID）控制器的最优模糊增益调度。通过蜂群优化，可自动获得FGS-PID控制器的比例因子，隶属函数和控制规则，而无需反复试验。在单机无限总线系统中进行的仿真研究证实，与带MPPT的PV和带PID的PV相比，采用FGS-PID的PV具有更好的稳定效果。

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来源
《2014 International Electrical Engineering Congress 》|2014年|1-4|共4页
会议地点 Chonburi(TH)
作者
Chaiyatham Theerawut; Ngamroo Issarachai;
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作者单位

Department of Electrical Engineering, Faculty of Engineering, King Mongkut's Institute of Technology Ladgrabang, Bangkok 10520, Thailand;

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会议组织
原文格式 PDF
正文语种 eng
中图分类
关键词
Generators; Inverters; Manganese; Silicon; Tin; Transientstability; beecolonyoptimization; fuzzygainscheduling; photovoltaic;

机译：发电机;逆变器;锰;硅;锡;瞬态稳定性;蜂群优化;模糊计划;光伏;;

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专利

1. Improvement of Power System Transient Stability by PV Farm With Fuzzy Gain Scheduling of PID Controller [J] . Theerawut Chaiyatham, Issarachai Ngamroo IEEE systems journal . 2017 ,第3期

机译：PID控制器的模糊增益调度提高光伏发电站的电力系统暂态稳定性。
2. OPTIMAL FUZZY GAIN SCHEDULING OF PID CONTROLLER OF SUPERCONDUCTING MAGNETIC ENERGY STORAGE FOR POWER SYSTEM STABILIZATION [J] . Theerawut Chaiyatham, Issarachai Ngamroo International Journal of Innovative Computing Information and Control . 2013 ,第2期

机译：电力系统稳定超导磁储能PID控制器的最优模糊增益调度
3. General Type-2 Fuzzy Gain Scheduling PID Controller with Application to Power-Line Inspection Robots [J] . Zhao Tao, Chen Yao, Dian Songyi, International Journal of Fuzzy Systems . 2020 ,第1期

机译：通用2型模糊增益调度PID控制器在电力巡检机器人中的应用。
4. Transient stabilization of power swing by controllable PV farm equipped with optimal fuzzy gain scheduling of PID controller [C] . Chaiyatham Theerawut, Ngamroo Issarachai International Electrical Engineering Congress . 2014

机译：可控PV农场的动力摆动瞬态稳定，配备PID控制器的最佳模糊增益调度
5. Pitch Control of Wind Turbine through PID, Fuzzy and adaptive Fuzzy-PID controllers [D] . Baburajan, Silpa. 2017

机译：通过PID，模糊和自适应Fuzzy-PID控制器控制风力发电机的变桨
6. An Optimal Current Controller Design for a Grid Connected Inverter to Improve Power Quality and Test Commercial PV Inverters [O] . Ali Algaddafi, Saud A. Altuwayjiri, Oday A. Ahmed, 2017

机译：用于改善电网质量并测试商用光伏逆变器的并网逆变器的最佳电流控制器设计
7. An Adaptive Fuzzy Controller Gain Scheduling For Power System Load-Frequency Control [O] . 2008

机译：电力系统负荷频率控制的自适应模糊控制器增益调度
8. LPV Controller Interpolation for Improved Gain-Scheduling Control Performance [R] . Wu, F. , Kim, S. W. 2002

机译：用于改进增益调度控制性能的LpV控制器插值

Transient stabilization of power swing by controllable PV farm equipped with optimal fuzzy gain scheduling of PID controller

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