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Coordinated LVRT Support for a PMSG-Based Wind Energy Conversion System Integrated into a Weak AC-Grid

Author

Listed:
  • Akrama Khan

    (Department of Electrical Engineering, Information Technology University, Lahore 54600, Pakistan)

  • Hasnain Ahmad

    (Department of Computer Science, Qarshi University, Lahore 54600, Pakistan)

  • Syed Muhammad Ahsan

    (Department of Computer Science, Qarshi University, Lahore 54600, Pakistan)

  • Muhammad Majid Gulzar

    (Department of Electrical Engineering, University of Central Punjab, Lahore 54600, Pakistan)

  • Sadia Murawwat

    (Department of Electrical Engineering, Lahore College for Women University, Lahore 54600, Pakistan)

Abstract

In a grid, the choice of the point of common coupling (PCC) does not solely rely on the voltage level alone but also conjointly depends on the grid strength for many explicit purposes. Nowadays, the affinity of low SCR grid connections has become a crucial thought once it involves the integration of wind generation plants (WPPs). Since the quality of wind resources is a critical issue, these plants are usually placed in remote areas with a sophisticated potential of wind flow. These remote areas are typically less inhabited, where the grid does not perpetually always have to be sturdy. Moreover, the exceeded power demand loading and higher wind penetration affect the generation, transmission, and distribution utilities by permitting the flow of unbalanced voltages and currents in the power system. Therefore, the quality of transmitted power is becoming a crucial facet of distributed energy generation units. In this paper, a permanent-magnet synchronous generator (PMSG) based wind energy conversion system (WECS) is presented. It discusses a solution, which provides the low voltage ride through (LVRT) provision by the suppression of DC link overvoltage and active power limitation during an asymmetrical grid fault. With improved back-to-back converter control, the machine side converter (MSC) is employed to control the DC-link voltage. Furthermore, the grid side converter (GSC) is used to implement the active/reactive current injection according to the outlined limits. The need for external hardware is eventually avoided, which is typically required to dissipate the additional energy generated during a grid fault. Hence, it is proven to be an affordable solution.

Suggested Citation

  • Akrama Khan & Hasnain Ahmad & Syed Muhammad Ahsan & Muhammad Majid Gulzar & Sadia Murawwat, 2021. "Coordinated LVRT Support for a PMSG-Based Wind Energy Conversion System Integrated into a Weak AC-Grid," Energies, MDPI, vol. 14(20), pages 1-14, October.
  • Handle: RePEc:gam:jeners:v:14:y:2021:i:20:p:6588-:d:655068
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    Citations

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    Cited by:

    1. María Teresa Villén & Maria Paz Comech & Eduardo Martinez Carrasco & Aníbal Antonio Prada Hurtado, 2022. "Influence of Negative Sequence Injection Strategies on Faulted Phase Selector Performance," Energies, MDPI, vol. 15(16), pages 1-19, August.
    2. Hemant Ahuja & Arika Singh & Sachin Sharma & Gulshan Sharma & Pitshou N. Bokoro, 2022. "Coordinated Control of Wind Energy Conversion System during Unsymmetrical Fault at Grid," Energies, MDPI, vol. 15(13), pages 1-15, July.
    3. Juan Dolado Fernández & Joaquín Eloy-Garcia & Santiago Arnaltes & Jose Luis Rodríguez-Amenedo, 2023. "Sequence Control Strategy for Grid-Forming Voltage Source Converters Based on the Virtual-Flux Orientation under Balanced and Unbalanced Faults," Energies, MDPI, vol. 16(7), pages 1-24, March.

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