Performance Analysis of Grid-Connected Distributed Generation System Integrating a Hybrid Wind-PV Farm Using UPQC

, , , , &
Complexity 2022:1-14 (2022)
  Copy   BIBTEX

Abstract

This work presents a distributed generation system that combines system of a wind turbine and photovoltaic using a unified power quality conditioner. Along with providing active power to the utility grid, Wind-PV-UPQC improves PQ indicators, for example, voltage drops/surges, harmonics of grid voltages, and PF. Since Wind-PV-UPQC depends on dual compensation scheme, the parallel converter works as a sinusoidal voltage source, while the series converter works as a sinusoidal current source. In this way, a smooth transition from grid operation to island operation and vice versa can be achieved without load voltage transitions. In addition, in order to overcome the problems through abrupt solar radiation or wind speed variations, a faster power balance is achieved between the wind turbines, the PV array, and the grid, as FFCL pursue the production of the current references of series converter. Consequently, the dynamic reactions of the converter currents and the voltage of dc bus are enhanced. A comprehensive analysis of flow of the AP through the converters is done to ensure a proper understanding of how Wind-PV-UPQC works. Finally, the simulation results are shown to estimate the dynamic and static performance of Wind-PV-UPQC in conjunction with the power distribution system.

Categories

Add categories

Keywords

Reprint years

DOI

10.1155/2022/4572145

Links

PhilArchive



    Upload a copy of this work     Papers currently archived: 93,891

External links

Setup an account with your affiliations in order to access resources via your University's proxy server

Through your library

My notes

Similar books and articles

A Unified Power Quality Conditioner for Feeder Reconfiguration and Setting to Minimize the Power Loss and Improve Voltage Profile.Zhigao Huang, Farid Shahbaazy & Afshin Davarpanah - 2022 - Complexity 2022:1-8.
The Active Frequency Control Strategy of the Wind Power Based on Model Predictive Control.Ya-Ling Chen, Yin-Peng Liu & Xiao-fei Sun - 2021 - Complexity 2021:1-11.
Design and Application of Wind Power Peak Control Technology.Songyi Zhu - 2014 - Journal of Power and Energy Engineering 2:23-28.
Department of Electrical Energy System Engineering, US-Pakistan Center for Advanced Studies in Energy (USPCAS-E), UET Peshawar, Pakistan.Amir Khan - 17/01/2021 - International Journal of Engineering Works 8 (01):1-7.
Barriers for Large Integration of PV and Onshore Wind Energy in the Distribution Network on the Selected European Union Electricity Markets.Hanna Bartoszewicz-Burczy - 2022 - Studia Ecologiae Et Bioethicae 20 (1).
An Advanced Hybrid Forecasting System for Wind Speed Point Forecasting and Interval Forecasting.Haipeng Zhang & Hua Luo - 2020 - Complexity 2020:1-16.
Renewable Energy Technologies for Microgrids.Marcelo G. Molina & Pedro E. Mercado - 2018 - In Antonio Carlos Zambroni de Souza & Miguel Castilla (eds.), Microgrids Design and Implementation. Springer Verlag. pp. 27-67.
Energy Yield, Power Quality and Grid Integration of Wind Energy Converters.R. E. Hanitsch - 2005 - In Alan Blackwell & David MacKay (eds.), Power. New York: Cambridge University Press. pp. 1200.
Wind Power in Ontario: Its Contribution to the Electricity Grid.Carey Jernigan & Ian H. Rowlands - 2008 - Bulletin of Science, Technology and Society 28 (6):436-453.
Static Stability Analysis Based on Probabilistic Power Flow Calculation considering P2G Technology.Jia Yao, Yujia Huang & Jingwei Hu - 2021 - Complexity 2021:1-11.

Analytics

Added to PP
2022-04-10

Downloads
8 (#1,334,194)

6 months
6 (#701,126)

Historical graph of downloads
How can I increase my downloads?

Author's Profile

Feng Pan
Durham University

Citations of this work

No citations found.

Add more citations

References found in this work

Add more references