Academic Bibliography

 Search 200 years of publications by Ghent University researchers.
Advanced search
2 files | 17.33 MB
Add to list
  1. Search results
  2. Novel distributed secondary control f...

Novel distributed secondary control for precise reactive and harmonic power sharing in islanded microgrids with unified grid-forming/following inverters using adaptive instantaneous circulating current compensation

Iman Lorzadeh (UGent) , Omid Lorzadeh, Luc Dupré (UGent) and Lieven Vandevelde (UGent)
(2025) 2025 IEEE Kiel PowerTech.
Author
Organization
Abstract
This paper introduces a novel distributed secondary control (SC) strategy for unified hybrid control (UHC)-enabled inverters, seamlessly integrating grid-following (GFL) and grid-forming (GFM) functionalities to enhance stability and resilience in islanded microgrids (IMGs). UHC consolidates GFM capabilities, such as frequency and voltage regulation with essential support services, and GFL capabilities for precise active and reactive power tracking under dynamic conditions, eliminating reliance on phase-locked loops (PLLs). Mismatched feeder impedances and the presence of diverse linear and nonlinear loads hinder accurate reactive and harmonic power sharing among UHC-enabled inverter-based resources (IBRs). The proposed SC strategy addresses these challenges by ensuring proportional sharing of reactive and harmonic power through an adaptive circulating-current minimization mechanism, which dynamically compensates voltage deviations caused by fundamental and harmonic circulating currents without requiring feeder impedance data. A parallel decoupled voltage control structure enables independent and simultaneous sharing of reactive and harmonic power while preserving voltage magnitude and quality. Extensive simulations on an IMG with three UHC-based IBRs validate the robustness and effectiveness of the proposed strategy across diverse operating scenarios. The results demonstrate its practicality for modern decentralized power systems, highlighting its ability to maintain stability, achieve precise power sharing, and provide robust grid support under dynamic and heterogeneous load conditions.
Keywords
Reactive and harmonic power sharing, grid-forming inverters, grid-following inverters, unified hybrid control, distributed cooperative secondary control, circulating current control, islanded microgrids

Downloads

  • Download
    (...).pdf
    • full text (Published version)
    • |
    • UGent only
    • |
    • PDF
    • |
    • 8.69 MB
  • Download
    Accepted Manuscript PowerTech2025.pdf
    • full text (Accepted manuscript)
    • |
    • open access
    • |
    • PDF
    • |
    • 8.65 MB

Citation

Please use this url to cite or link to this publication:

MLA
Lorzadeh, Iman, et al. “Novel Distributed Secondary Control for Precise Reactive and Harmonic Power Sharing in Islanded Microgrids with Unified Grid-Forming/Following Inverters Using Adaptive Instantaneous Circulating Current Compensation.” 2025 IEEE Kiel PowerTech, IEEE, 2025, doi:10.1109/powertech59965.2025.11180696.
APA
Lorzadeh, I., Lorzadeh, O., Dupré, L., & Vandevelde, L. (2025). Novel distributed secondary control for precise reactive and harmonic power sharing in islanded microgrids with unified grid-forming/following inverters using adaptive instantaneous circulating current compensation. 2025 IEEE Kiel PowerTech. Presented at the 2025 IEEE Kiel PowerTech, Kiel, Germany. https://doi.org/10.1109/powertech59965.2025.11180696
Chicago author-date
Lorzadeh, Iman, Omid Lorzadeh, Luc Dupré, and Lieven Vandevelde. 2025. “Novel Distributed Secondary Control for Precise Reactive and Harmonic Power Sharing in Islanded Microgrids with Unified Grid-Forming/Following Inverters Using Adaptive Instantaneous Circulating Current Compensation.” In 2025 IEEE Kiel PowerTech. IEEE. https://doi.org/10.1109/powertech59965.2025.11180696.
Chicago author-date (all authors)
Lorzadeh, Iman, Omid Lorzadeh, Luc Dupré, and Lieven Vandevelde. 2025. “Novel Distributed Secondary Control for Precise Reactive and Harmonic Power Sharing in Islanded Microgrids with Unified Grid-Forming/Following Inverters Using Adaptive Instantaneous Circulating Current Compensation.” In 2025 IEEE Kiel PowerTech. IEEE. doi:10.1109/powertech59965.2025.11180696.
Vancouver
1.
Lorzadeh I, Lorzadeh O, Dupré L, Vandevelde L. Novel distributed secondary control for precise reactive and harmonic power sharing in islanded microgrids with unified grid-forming/following inverters using adaptive instantaneous circulating current compensation. In: 2025 IEEE Kiel PowerTech. IEEE; 2025.
IEEE
[1]
I. Lorzadeh, O. Lorzadeh, L. Dupré, and L. Vandevelde, “Novel distributed secondary control for precise reactive and harmonic power sharing in islanded microgrids with unified grid-forming/following inverters using adaptive instantaneous circulating current compensation,” in 2025 IEEE Kiel PowerTech, Kiel, Germany, 2025.
@inproceedings{01K72MCJGGHW97V13K3WY882HR,
  abstract     = {{This paper introduces a novel distributed secondary control (SC) strategy for unified hybrid control (UHC)-enabled inverters, seamlessly integrating grid-following (GFL) and grid-forming (GFM) functionalities to enhance stability and resilience in islanded microgrids (IMGs). UHC consolidates GFM capabilities, such as frequency and voltage regulation with essential support services, and GFL capabilities for precise active and reactive power tracking under dynamic conditions, eliminating reliance on phase-locked loops (PLLs). Mismatched feeder impedances and the presence of diverse linear and nonlinear loads hinder accurate reactive and harmonic power sharing among UHC-enabled inverter-based resources (IBRs). The proposed SC strategy addresses these challenges by ensuring proportional sharing of reactive and harmonic power through an adaptive circulating-current minimization mechanism, which dynamically compensates voltage deviations caused by fundamental and harmonic circulating currents without requiring feeder impedance data. A parallel decoupled voltage control structure enables independent and simultaneous sharing of reactive and harmonic power while preserving voltage magnitude and quality. Extensive simulations on an IMG with three UHC-based IBRs validate the robustness and effectiveness of the proposed strategy across diverse operating scenarios. The results demonstrate its practicality for modern decentralized power systems, highlighting its ability to maintain stability, achieve precise power sharing, and provide robust grid support under dynamic and heterogeneous load conditions.}},
  author       = {{Lorzadeh, Iman and Lorzadeh, Omid and Dupré, Luc and Vandevelde, Lieven}},
  booktitle    = {{2025 IEEE Kiel PowerTech}},
  isbn         = {{9798331543976}},
  keywords     = {{Reactive and harmonic power sharing,grid-forming inverters,grid-following inverters,unified hybrid control,distributed cooperative secondary control,circulating current control,islanded microgrids}},
  language     = {{eng}},
  location     = {{Kiel, Germany}},
  pages        = {{7}},
  publisher    = {{IEEE}},
  title        = {{Novel distributed secondary control for precise reactive and harmonic power sharing in islanded microgrids with unified grid-forming/following inverters using adaptive instantaneous circulating current compensation}},
  url          = {{http://doi.org/10.1109/powertech59965.2025.11180696}},
  year         = {{2025}},
}
Altmetric
View in Altmetric