Frequency stabilization of hydro-hydro power system using hybrid bacteria foraging PSO with UPFC and HAE

Panwar Akhilesh; Sharma Gulshan; Nasiruddin Ibraheem; Bansal R. C.

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Frequency stabilization of hydro-hydro power system using hybrid bacteria foraging PSO with UPFC and HAE

机译：使用UPFC和HAE的混合细菌觅食PSO的水电系统的频率稳定

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This paper presents the design of proportional integral derivative (PID) based load frequency control (LFC) scheme effectively optimized through novel combination of bacteria foraging oriented particle swarm optimization (BFO-PSO) technique for a hydro dominating energy system model. The design control are implemented for 1% load disturbance in area-1 and compared with classical PID, Pessen integral rule, some overshoot, no overshoot as well as with recently published bacteria foraging optimization algorithm (BFOA) in terms of computed gains and inverse time multiplied absolute error (ITAE). The system performance for hydro energy system is sluggish and oscillatory. Hence, the further enhancement with proposed design are observed by considering the combination of unified power flow control (UPFC) in series with the tie-line and hydrogen aqua electrolyzer units installed at terminal of area-2. The system performance of the designed control is evaluated under various system investigations considering the dead-band and generation rate constraint (GRC) non-linearity and the applications results are presented to show the superiority of the proposed work. (C) 2018 Elsevier B.V. All rights reserved.

机译：本文提出了一种基于比例积分微分（PID）的负载频率控制（LFC）方案的设计，该方案通过细菌觅食定向粒子群优化（BFO-PSO）技术的新颖组合有效地优化了水力支配能源系统模型。设计控制是针对区域1中1％的负载扰动实施的，并且与经典PID，Pessen积分规则，一些超调，无超调以及最近发布的细菌觅食优化算法（BFOA）相比，具有计算的增益和反时限乘以绝对误差（ITAE）。水电系统的系统性能缓慢且波动。因此，通过考虑将统一功率流控制（UPFC）与安装在area-2终端的联络线和氢气水电解装置串联的组合，可以观察到所提出设计的进一步增强。在考虑死区和发生率约束（GRC）非线性的情况下，通过各种系统研究对设计控件的系统性能进行了评估，并给出了应用结果以表明所提出工作的优越性。（C）2018 Elsevier B.V.保留所有权利。

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来源
《Electric power systems research》 |2018年第8期|74-85|共12页
作者
Panwar Akhilesh; Sharma Gulshan; Nasiruddin Ibraheem; Bansal R. C.;
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作者单位

Nirma Univ, Inst Technol, Dept Elect Engn, Ahmadabad, Gujarat, India;

Nirma Univ, Inst Technol, Dept Elect Engn, Ahmadabad, Gujarat, India;

Jamia Millia Islamia, Dept Elect Engn, New Delhi, India;

Univ Pretoria, Dept Elect Elect & Comp Engn, Pretoria, South Africa;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
Load frequency control; Area control error; BFO; BFO-PSO; Hydrogen aqua electrolyzer unit; UPFC;

机译：负载频率控制;区域控制误差;BFO;BFO-PSO;氢气水电解装置;UPFC;

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1. Design of PID Controller for Power System Stabilization Using Hybrid Particle Swarm-Bacteria Foraging Optimization [J] . H. I. ABDUL-GHAFFAR, E. A. EBRAHIM, M. AZZAM WSEAS Transactions on Power Systems . 2013,第1a4期

机译：混合粒子群-细菌觅食优化的电力系统稳定PID控制器设计。
2. Bat Search Algorithm Based Hybrid PSO Approaches to Optimize the Location of UPFC in Power System [J] . P.R. Sharma, Pinki Yadav, S. K. Gupta International Journal on Electrical Engineering and Informatics . 2015,第3期

机译：基于Bat搜索算法的混合PSO优化电力系统UPFC位置
3. A Moth-Flame Optimization for UPFC-RFB-Based Load Frequency Stabilization of a Realistic Power System with Various Nonlinearities [J] . Nandi Mahendra, Shiva Chandan Kumar, Mukherjee Vivekananda Iranian Journal of Science and Technology, Transactions of Electrical Engineering . 2019,第JULaSUPPLa1期

机译：基于UPFC-RFB的具有多种非线性的现实电力系统的基于负载频率稳定的飞蛾优化
4. Power System Stabilization Improvement by Using PSO-based UPFC [C] . Vahidi B., Jazebi S., Baghaee H. R., Power System Technology (POWERCON) and IEEE Power India Conference, 2008 Joint International Conference on . -1

机译：使用基于PSO的UPFC改善电力系统的稳定性
5. Modelling and applications of unified power flow controller (UPFC) for power systems. [D] . Nabavi-Niaki, Seyyed Ali. 1996

机译：电力系统统一潮流控制器（UPFC）的建模和应用。
6. PSO-Based Smart Grid Application for Sizing and Optimization of Hybrid Renewable Energy Systems [O] . Mohamed A. Mohamed, Ali M. Eltamaly, Abdulrahman I. Alolah 2011

机译：基于PSO的智能电网应用，用于混合可再生能源系统的规模和优化
7. Hybrid Bacterial Foraging Enhanced PSO Algorithm for Load Frequency Control of Hydro-Thermal Multi-Area Power System and Comparative analysis [O] . Kumar Amit.et.al. 2020

机译：杂化菌觅食增强型PSO算法，用于水热多区电力系统负载频率控制及比较分析

Frequency stabilization of hydro-hydro power system using hybrid bacteria foraging PSO with UPFC and HAE

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