基于FOPID控制器的黑寡妇优化技术的动态电压恢复系统

Q3 Engineering EAI Endorsed Transactions on Energy Web Pub Date : 2023-11-08 DOI:10.4108/ew.4331

B. Srikanth Goud, M. Kiran Kumar, Narisetti Ashok Kumar, CH. Naga Sai Kalyan, Mohit Bajaj, Subhashree Choudhury, Swati Shukla

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引用次数: 0

摘要

出于几个原因，电气设备用电的效率是必不可少的。首先，卓越的电能质量(PQ)提高了效率，促进了电子设备的峰值性能。本文的目标是使安装动态电压恢复器(DVR)以提高电能用户PQ的优势更加清晰。为了提高DVR的可靠性和用户友好性，建议的技术使用可变开关频率的滞后电压控制系统。仿真结果表明，当采用基于黑寡妇优化(BWO)的分阶比例导数(FOPID)控制器时，在干扰下电压补偿是成功的。本文提出使用BWO- FOPID控制器来改善PQ，并使用MATLAB将其结果与先前开发的配电系统PI控制器的结果进行比较。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Dynamic Voltage Restorer to Mitigate Voltage Sag/Swell using Black Widow Optimization Technique with FOPID Controller

The efficiency with which electrical equipment use electricity is essential for several reasons. First, superior power quality (PQ) improves efficiency and facilitates peak performance in electronic equipment. This article's goal is to make the advantages of installing a Dynamic Voltage Restorer (DVR) to enhance PQ for energy users clearer. To improve DVR dependability and user friendliness, the suggested technique uses a hysteresis voltage control system that works with variable switching frequency. Simulation findings show that voltage compensation is successful under disturbances when a black widow optimization (BWO) based Factional order proportional derivative (FOPID) controller is used. This paper proposed is to improve PQ using a BWO- FOPID controller and compare the outcomes to those achieved from a previously developed PI controller in a distribution power system using MATLAB.

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来源期刊

EAI Endorsed Transactions on Energy Web Energy-Energy Engineering and Power Technology

CiteScore

2.60

自引率

0.00%

发文量

审稿时长

10 weeks

期刊介绍： With ICT pervading everyday objects and infrastructures, the ‘Future Internet’ is envisioned to undergo a radical transformation from how we know it today (a mere communication highway) into a vast hybrid network seamlessly integrating knowledge, people and machines into techno-social ecosystems whose behaviour transcends the boundaries of today’s engineering science. As the internet of things continues to grow, billions and trillions of data bytes need to be moved, stored and shared. The energy thus consumed and the climate impact of data centers are increasing dramatically, thereby becoming significant contributors to global warming and climate change. As reported recently, the combined electricity consumption of the world’s data centers has already exceeded that of some of the world''s top ten economies. In the ensuing process of integrating traditional and renewable energy, monitoring and managing various energy sources, and processing and transferring technological information through various channels, IT will undoubtedly play an ever-increasing and central role. Several technologies are currently racing to production to meet this challenge, from ‘smart dust’ to hybrid networks capable of controlling the emergence of dependable and reliable green and energy-efficient ecosystems – which we generically term the ‘energy web’ – calling for major paradigm shifts highly disruptive of the ways the energy sector functions today. The EAI Transactions on Energy Web are positioned at the forefront of these efforts and provide a forum for the most forward-looking, state-of-the-art research bringing together the cross section of IT and Energy communities. The journal will publish original works reporting on prominent advances that challenge traditional thinking.