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Static Reactive Power Compensator Design, Based on Three-Phase Voltage Converter

Author

Listed:
  • Manuel Ayala-Chauvin

    (SISAu Research Group, Facultad de Ingeniería y Tecnologías de la Información y Comunicación, Universidad Tecnológica Indoamérica, Campus Agramonte, Ambato 180103, Ecuador)

  • Bahodurjon S. Kavrakov

    (School of Energy and Power Engineering, Tomsk Polytechnic University, Tomsk 634050, Russia)

  • Jorge Buele

    (SISAu Research Group, Facultad de Ingeniería y Tecnologías de la Información y Comunicación, Universidad Tecnológica Indoamérica, Campus Agramonte, Ambato 180103, Ecuador)

  • José Varela-Aldás

    (SISAu Research Group, Facultad de Ingeniería y Tecnologías de la Información y Comunicación, Universidad Tecnológica Indoamérica, Campus Agramonte, Ambato 180103, Ecuador
    Department of Electronic Engineering and Communications, University of Zaragoza, 44003 Teruel, Spain)

Abstract

At present, electrical network stability is of the utmost importance because of the increase in electric demand and the integration of distributed generation deriving from renewable energy. In this paper, we proposed a static reactive power compensator model with common direct current voltage sources. Converter parameters were calculated and designed to fulfill specifications. In order to ascertain the device response for different operating modes as reactive power consumer and generator, we developed the model’s power and control circuits in Matlab Simulink. Simulations were performed for different conditions, and as a result, the current and voltage waveforms and the circular power chart were obtained. This paper has theoretically proven it is possible to achieve the consumption or generation of purely active or reactive power by implementing a static reactive power compensator with common DC voltage sources.

Suggested Citation

  • Manuel Ayala-Chauvin & Bahodurjon S. Kavrakov & Jorge Buele & José Varela-Aldás, 2021. "Static Reactive Power Compensator Design, Based on Three-Phase Voltage Converter," Energies, MDPI, vol. 14(8), pages 1-16, April.
    • Handle: RePEc:gam:jeners:v:14:y:2021:i:8:p:2198-:d:536392
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    References listed on IDEAS

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    4. Wajahat Ullah Khan Tareen & Muhammad Aamir & Saad Mekhilef & Mutsuo Nakaoka & Mehdi Seyedmahmoudian & Ben Horan & Mudasir Ahmed Memon & Nauman Anwar Baig, 2018. "Mitigation of Power Quality Issues Due to High Penetration of Renewable Energy Sources in Electric Grid Systems Using Three-Phase APF/STATCOM Technologies: A Review," Energies, MDPI, vol. 11(6), pages 1-41, June.
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    7. Muhammad Moin Afzal & Muhammad Adil Khan & Muhammad Arshad Shehzad Hassan & Abdul Wadood & Waqar Uddin & S. Hussain & Sang Bong Rhee, 2020. "A Comparative Study of Supercapacitor-Based STATCOM in a Grid-Connected Photovoltaic System for Regulating Power Quality Issues," Sustainability, MDPI, vol. 12(17), pages 1-26, August.
    8. Sirjani, Reza & Rezaee Jordehi, Ahmad, 2017. "Optimal placement and sizing of distribution static compensator (D-STATCOM) in electric distribution networks: A review," Renewable and Sustainable Energy Reviews, Elsevier, vol. 77(C), pages 688-694.
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    Cited by:

    1. David Rivera & Daniel Guillen & Jonathan C. Mayo-Maldonado & Jesus E. Valdez-Resendiz & Gerardo Escobar, 2021. "Power Grid Dynamic Performance Enhancement via STATCOM Data-Driven Control," Mathematics, MDPI, vol. 9(19), pages 1-21, September.
    2. Tomasz Binkowski & Marek Nowak & Stanisław Piróg, 2022. "Power Supply and Reactive Power Compensation of a Single-Phase Higher Frequency On-Board Grid with Photovoltaic Inverter," Energies, MDPI, vol. 15(7), pages 1-16, April.
    3. Alaa Khasawneh & Mohamed Qawaqzeh & Vladislav Kuchanskyy & Olena Rubanenko & Oleksandr Miroshnyk & Taras Shchur & Marcin Drechny, 2021. "Optimal Determination Method of the Transposition Steps of An Extra-High Voltage Power Transmission Line," Energies, MDPI, vol. 14(20), pages 1-15, October.

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