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Power Quality Enhancement in Electricity Grids with Wind Energy Using Multicell Converters and Energy Storage. / Merabet Boulouiha , Houari; Khodja, Mohamed; Rahiel, Djelloul; Allali, Ahmed; Kaddour, Fouad; Denai, Mouloud.

In: Journal of Renewable and Sustainable Energy, Vol. 11, No. 1, 013302, 10.01.2019.

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Merabet Boulouiha , Houari ; Khodja, Mohamed ; Rahiel, Djelloul ; Allali, Ahmed ; Kaddour, Fouad ; Denai, Mouloud. / Power Quality Enhancement in Electricity Grids with Wind Energy Using Multicell Converters and Energy Storage. In: Journal of Renewable and Sustainable Energy. 2019 ; Vol. 11, No. 1.

Bibtex

@article{81e83f1d98734a509e071441bd26bb57,
title = "Power Quality Enhancement in Electricity Grids with Wind Energy Using Multicell Converters and Energy Storage",
abstract = "In recent years, the wind power industry is experiencing a rapid growth and more wind farms with larger size wind turbines are being connected to the power system. While this contributes to the overall security of electricity supply, large-scale deployment of wind energy into the grid also presents many technical challenges. Most of these challenges are one way or another, related to the variability and intermittent nature of wind and affect the power quality of the distribution grid. Power quality relates to factors that cause variations in the voltage level and frequency as well as distortion in the voltage and current waveforms due to wind variability which produces both harmonics and inter-harmonics. The main motivation behind work is to propose a new topology of the static AC/DC/AC multicell converter to improve the power quality in grid-connected wind energy conversion systems. Serial switching cells have the ability to achieve a high power with lower-size components and improve the voltage waveforms at the input and output of the converter by increasing the number of cells. Furthermore, a battery energy storage system is included and a power management strategy is designed to ensure the continuity of power supply and consequently the autonomy of the proposed system. The simulation results are presented for a 149.2 kW wind turbine induction generator system and the results obtained demonstrate the reduced harmonics, improved transient response, and reference tracking of the voltage output of the wind energy conversion system.",
author = "{Merabet Boulouiha}, Houari and Mohamed Khodja and Djelloul Rahiel and Ahmed Allali and Fouad Kaddour and Mouloud Denai",
year = "2019",
month = "1",
day = "10",
doi = "10.1063/1.5043292",
language = "English",
volume = "11",
journal = "Journal of Renewable and Sustainable Energy",
issn = "1941-7012",
publisher = "AIP PRESS",
number = "1",

}

RIS

TY - JOUR

T1 - Power Quality Enhancement in Electricity Grids with Wind Energy Using Multicell Converters and Energy Storage

AU - Merabet Boulouiha , Houari

AU - Khodja, Mohamed

AU - Rahiel, Djelloul

AU - Allali, Ahmed

AU - Kaddour, Fouad

AU - Denai, Mouloud

PY - 2019/1/10

Y1 - 2019/1/10

N2 - In recent years, the wind power industry is experiencing a rapid growth and more wind farms with larger size wind turbines are being connected to the power system. While this contributes to the overall security of electricity supply, large-scale deployment of wind energy into the grid also presents many technical challenges. Most of these challenges are one way or another, related to the variability and intermittent nature of wind and affect the power quality of the distribution grid. Power quality relates to factors that cause variations in the voltage level and frequency as well as distortion in the voltage and current waveforms due to wind variability which produces both harmonics and inter-harmonics. The main motivation behind work is to propose a new topology of the static AC/DC/AC multicell converter to improve the power quality in grid-connected wind energy conversion systems. Serial switching cells have the ability to achieve a high power with lower-size components and improve the voltage waveforms at the input and output of the converter by increasing the number of cells. Furthermore, a battery energy storage system is included and a power management strategy is designed to ensure the continuity of power supply and consequently the autonomy of the proposed system. The simulation results are presented for a 149.2 kW wind turbine induction generator system and the results obtained demonstrate the reduced harmonics, improved transient response, and reference tracking of the voltage output of the wind energy conversion system.

AB - In recent years, the wind power industry is experiencing a rapid growth and more wind farms with larger size wind turbines are being connected to the power system. While this contributes to the overall security of electricity supply, large-scale deployment of wind energy into the grid also presents many technical challenges. Most of these challenges are one way or another, related to the variability and intermittent nature of wind and affect the power quality of the distribution grid. Power quality relates to factors that cause variations in the voltage level and frequency as well as distortion in the voltage and current waveforms due to wind variability which produces both harmonics and inter-harmonics. The main motivation behind work is to propose a new topology of the static AC/DC/AC multicell converter to improve the power quality in grid-connected wind energy conversion systems. Serial switching cells have the ability to achieve a high power with lower-size components and improve the voltage waveforms at the input and output of the converter by increasing the number of cells. Furthermore, a battery energy storage system is included and a power management strategy is designed to ensure the continuity of power supply and consequently the autonomy of the proposed system. The simulation results are presented for a 149.2 kW wind turbine induction generator system and the results obtained demonstrate the reduced harmonics, improved transient response, and reference tracking of the voltage output of the wind energy conversion system.

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U2 - 10.1063/1.5043292

DO - 10.1063/1.5043292

M3 - Article

VL - 11

JO - Journal of Renewable and Sustainable Energy

T2 - Journal of Renewable and Sustainable Energy

JF - Journal of Renewable and Sustainable Energy

SN - 1941-7012

IS - 1

M1 - 013302

ER -